L9D364M64SBG2 - LOGIC Devices, Inc.

L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Benefits
FEATURES
DDR3 Integrated Module [iMOD]:
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iMOD Part Information
ORDER NUMBER
SPEED GRADE
/'06%*[
DDR3-1866
/'06%*[
DDR3-1600
/'06%*[
DDR3-1333
/'06%*[
DDR3-1066
/'06%*[
DDR3-800
PKG FOOTPRINT
I/O
PITCH
PP[PP
PP
PKG NO.
BG2
integrated module products
LOGIC Devices Incorporated
www.logicdevices.com
1
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FEATURES
FIGURE 1 - DDR3 PART NUMBERS
Sample Part Number:
L9D3
64M
64S
L9D364M64SBG2
BG2
X
DDR3 iMOD
XXX
Code
Word = 64MB
Wordwidth
x64
S = Single Channel
Speed Grade
15
1.5ns / 667MHz
125
1.25ns / 800MHz
107
1.07ns / 933MHz
093
0.938ns / 1066MHz
16 x 22mm
PBGA
Temperature
Code
Commercial (0oC to 70oC)
C
Industrial (-40oC to 85oC)
I
o
o
Extended (-40 C to 105 C)
E
Military (-55oC to 125oC)
M
Note: Not all options can be combined. Please see our Part Catalog for available offerings.
TABLE 1: ADDRESSING
Parameter
LOGIC Devices Incorporated
64 Meg x 64
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5HIUHVK&RXQW
8K
52:$GGUHVVLQJ
.$>@
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.$>@
www.logicdevices.com
2
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
STATE DIAGRAM
FIGURE 2 - SIMPLIFIED STATE DIAGRAM
CKE L
Power
applied
Power
on
Reset
Procedure
MRS, MPR,
write
leveling
Initialization
Self
refresh
SRE
ZQCL
MRS
SRX
From any
state
RESET
ZQ
Calibration
REF
ZQCL/ZQCS
Idle
Refreshing
PDE
ACT
PDX
Active
PowerDown
Preharge
PowerDown
Activating
PDX
CKE L
CKE L
PDE
Bank
Active
WRITE
WRITE
READ
WRITE AP
READ AP
READ
Writing
READ
Reading
WRITE
WRITE AP
READ AP
WRITE AP
READ AP
PRE, PREA
Writing
PRE, PREA
Preharging
PRE, PREA
Reading
Automatic
Sequence
Command
Sequence
ACT = ACTIVATE
MPR = Multipurpose register
MRS = Mode register set
PDE = Power-down entry
PDX = Power-down exit
PRE = PRECHARGE
LOGIC Devices Incorporated
www.logicdevices.com
PREA=PRECHARGE ALL
READ = RD, RDS4, RDS8
READ AP = RDAP, RDAPS4, RDAPS8
REF = REFRESH
RESET = START RESET PROCEDURE
SRE = Self refresh entry
3
SRX = Self refresh exit
WRITE = WR, WRS4, WRS8
WRITE AP = WRAP, WRAPS4, WRAPS8
ZQCL = ZQ LONG CALIBRATION
ZQCS = ZQ SHORT CALIBRATION
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
INDUSTRIAL TEMPERATURE
FUNCTIONAL DESCRIPTION
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EXTENDED TEMPERATURE
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MILITARY, EXTREME OPERATING TEMPERATURE
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LOGIC Devices Incorporated
www.logicdevices.com
4
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 3 - FUNCTIONAL BLOCK DIAGRAM
CS\
RAS\
CAS\
CKE
WE\
VDDQ
VDD
VSSQ
VSS
RESET\
A0-A12, BA0-2
A, BA
CK0
CK0\
LDQS0
LDQS0\
UDQS0
UDQS0\
RST\ VSS VSSQ VDD VDDQ WE\ CKE CAS\ RAS\ CS\
D0
LDM0
UDM0
A, BA
CK1
CK1\
LDQS1
LDQS1\
UDQS1
UDQS1\
LDM1
UDM1
CK2
CK2\
LDQS2
LDQS2\
UDQS2
UDQS2\
LDM2
UDM2
CK3
CK3\
LDQS3
LDQS3\
UDQS3
UDQS3\
D3
LDM3
www.logicdevices.com
DQ 8
DQ 15
DQ 0
DQ 7
DQ 16
DQ 23
DQ 8
DQ 15
DQ 24
DQ 31
DQ 0
DQ 7
DQ 32
DQ 39
DQ 8
DQ 15
DQ 40
DQ 47
DQ 0
DQ 7
DQ 48
DQ 55
DQ 8
DQ 15
DQ 56
DQ 63
RST\ VSS VSSQ VDD VDDQ WE\ CKE CAS\ RAS\ CS\
UDM3
LOGIC Devices Incorporated
DQ 8
DQ 15
RST\ VSS VSSQ VDD VDDQ WE\ CKE CAS\ RAS\ CS\
D2
A, BA
DQ 0
DQ 7
RST\ VSS VSSQ VDD VDDQ WE\ CKE CAS\ RAS\ CS\
D1
A, BA
DQ 0
DQ 7
5
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
BALL /SIGNAL LOCATION (PBGA)
FIGURE 4 - SDRAM - DDR3 PINOUT TOP VIEW
1
A
2
3
VssQ
VDDQ
VDD
4
5
6
7
8
9
10
11
12
13
VDDQ
Vss
Vss
VssQ
Vss
Vss
VDDQ
VDDQ
VssQ
VssQ
A
Vss
VDD
VDD
Vss
VDD
VDD
Vss
VDD
Vss
VssQ
B
B
VssQ
C
VDDQ
VDD
Vss
Vss
ZQ3
ZQ2
Vss
Vss
Vss
Vss
Vss
VDD
VDDQ
C
D
VDDQ
Vss
Vss
Vss
ZQ0
ZQ1
Vss
Vss
DQ34
CK3
CK3\
Vss
VDDQ
D
E
Vss
DQ35
DQ51
Vss
Vss
Vss
VrefCA
DQ50
DQ53
DQ37
CK2\
CK2
Vss
E
F
Vss
DQ52
DQ36
DQ33
RESET\
BA2
RFU
DQ39
LDQS2
LDQS3
DQ48
DQ32
Vss
F
G
Vss
LDM3
LDM2
DQ49
DQ43
DQ59
RFU
DQ55
DQ58
DQ42
Vss
G
H
Vss
DQ38
DQ54
DQ60
DQ57
UDM2
Vss
DQ63
DQ56
DQ40
Vss
H
J
Vss
UDM3
DQ44
DQ41
DQ46
DQ62
VDD
UDQS2\
DQ47
Vss
J
K
VDDQ
VDD
A6
A10
A9
VDD
Vss
VDD
A3
A12
RFU
VDD
VDDQ
K
L
VssQ
Vss
A0
A11
VDD
Vss
VrefDA
Vss
VDD
A1
BA1
VssDL
VssQ
L
M
VDDQ
VDD
A2
A4
A8
VDD
Vss
VDD
BA0
A5
A7
VDDDL
VDDQ
M
N
Vss
DQ15
UDQS0\
VDD
DQ30
DQ14
DQ9
DQ12
UDM1
Vss
N
P
Vss
DQ8
DQ24
DQ31
Vss
UDM0
DQ25
DQ28
DQ22
DQ6
Vss
P
R
Vss
DQ10
DQ26
DQ23
ODT
DQ27
DQ11
DQ17
LDM0
LDM1
Vss
R
T
Vss
DQ0
DQ16
DQ7
Vss
Vss
Vss
DQ1
DQ4
DQ20
Vss
T
U
Vss
CK0
CK0\
DQ5
DQ21
DQ18
Vss
Vss
CKE
WE\
DQ19
DQ3
Vss
U
V
VDDQ
Vss
CK1\
CK1
DQ2
RAS\
CAS\
Vss
Vss
Vss
Vss
Vss
VDDQ
V
W
VDDQ
VDD
Vss
Vss
Vss
CS\
Vss
Vss
Vss
Vss
Vss
VDD
VDDQ
W
Y
VssQ
Vss
VDD
Vss
VDD
VDD
Vss
VDD
VDD
Vss
VDD
Vss
VssQ
Y
AA
VssQ
VssQ
VDDQ
VDDQ
Vss
Vss
VssQ
Vss
Vss
VDDQ
VDDQ
VssQ
VssQ
AA
1
2
3
4
5
6
7
8
9
10
11
12
13
UDQS1\ UDQS1 UDQS0
DQ13
DQ29
LDQS1\ LDQS0\
LDQS1 LDQS0
LDQS2\ LDQS3\
DQ61
DQ45
UDQS2 UDQS3 UDQS3\
GND (Core)
V + (Core Power)
UNPOPULATED
Address
GND (I/O)
V + (I/O Power)
Data IO
CNTRL
VSSDL
VDDDL
Level REF
271BGA-1.00MM PITCH - X64, SCB
LOGIC Devices Incorporated
www.logicdevices.com
6
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 2 - BALL/SIGNAL LOCATION AND DESCRIPTION
Ball Assignments
Symbol
Type
Input Address Inputs: 3URYLGHWKH52:DGGUHVVIRU$&7,9$7(FRPPDQGVDQGWKHFROXPQDGGUHVV
Description
L3, L10, M3, K9, M4,
A0, A1, A2,
M10, K3, M11, M5, K5,
A3, A4, A5,
DQGDXWRSUHFKDUJHELW$10IRU5($'<:5,7(FRPPDQGVWRVHOHFWRQHORFDWLRQRXWRIWKH
K4, L4, K10
A6, A7, A8,
PHPRU\DUUD\LQWKHUHVSHFWLYHEDQN$10VDPSOHGGXULQJD35(&+$5*(FRPPDQGGHWHUPLQHV
A9, A10 /AP,
ZKHWKHUWKH35(&+$5*(DSSOLHVWRRQHEDQN$10/2:EDQNVHOHFWHGE\%$>@RUDOOEDQNV
A11, A12 /BC
$10+,*+7KHDGGUHVVLQSXWVDOVRSURYLGHWKHRSFRGHGXULQJD/2$'02'(FRPPDQG
$GGUHVVLQSXWVDUHUHIHUHQFHGWR9UHI&$$12%&ZKHQHQDEOHGLQWKHPRGHUHJLVWHU05$12
LVVDPSOHGGXULQJ5($'DQG:5,7(FRPPDQGVWRGHWHUPLQHZKHWKHUEXUVWFKRS/2: %&4
EXUVWFKRS
M9, L11, F6
BA0, BA1,
BA2
Input Bank Address Inputs: %$>@GHILQHWKHEDQNWRZKLFKDQ$&7,9$7(5($':5,7(RU
35(&+$5*(FRPPDQGLVEHLQJDSSOLHG%$>@GHILQHZKLFKPRGHUHJLVWHU050, MR1, MR2, or
MR3LVORDGHGGXULQJWKH/2$'02'(FRPPDQG%$>@DUHUHIHUHQFHGWR9UHI&$
.*)
RFU
8899(
CKX, CKX\
Input )XWXUH$GGUHVV$13, $14, $15
Input Clock: &.[DQG&.[?DUHGLIIHUHQWLDOFORFNLQSXWVRQHGLIIHUHQWLDOSDLUSHU:25'IRXU:25'V
FRQWDLQHGLQWKH/'[[*SURGXFW$OOFRQWURODQGDGGUHVVLQSXWVLJQDOVDUHVDPSOHGRQWKH
(''
FURVVLQJRIWKHSRVLWLYHHGJHRI&.[DQGWKHQHJDWLYHHGJHRI&.[?2XWSXWGDWDVWUREHV8'46[
8'46[?DQG/'46[/'46[?LVUHIHUHQFHGWRWKHFURVVLQJRI&.[DQG&.[?
8
CKE
Input Clock Enable: &.(HQDEOHVDQGGLVDEOHVLQWHUQDOFLUFXLWU\DQGFORFNVRQWKH6'5$07KH
VSHFLILFFLUFXLWU\WKDWLVHQDEOHGGLVDEOHGLVGHSHQGHQWXSRQWKH''56'5$0FRQILJXUDWLRQDQG
RSHUDWLQJPRGH7DNLQJ&.(/2:SURYLGHV35(&+$5*(SRZHUGRZQDQG6(/)5()5(6+
RSHUDWLRQVDOOEDQNVLGOHRUDFWLYHSRZHUGRZQURZDFWLYHLQDQ\EDQN&.(LVV\QFKURQRXV
IRUSRZHUGRZQHQWU\DQGH[LWDQGIRUVHOIUHIUHVKHQWU\&.(LVDV\QFKURQRXVIRUVHOIUHIUHVK
H[LW,QSXWEXIIHUVH[FOXGLQJ&.[&.[?&.(5(6(7DQG2'7DUHGLVDEOHGGXULQJ6(/)
5()5(6+&.(LVUHIHUHQFHGWR9UHI&$
:
CS\
Input Chip Select: &6?HQDEOHVUHJLVWHUHG/2:DQGGLVDEOHVWKHFRPPDQGGHFRGHU$OOFRPPDQGV
DUHPDVNHGZKHQ&6?LVUHJLVWHUHG+,*+&6?SURYLGHVIRUH[WHUQDOUDQNVHOHFWLRQRQV\VWHPVZLWK
PXOWLSOH UDQNV&6?LVFRQVLGHUHGSDUWRIWKHFRPPDQGFRGH&6?LVUHIHUHQFHGWR9UHI&$
5351
LDMx,
Input Input Data Mask: /'0[LVWKH/RZHUE\WHRID:25'8'0[LVWKH8SSHUE\WHRID:25'WKH
*+*
UDMx
/'[[*FRQWDLQVIRXU:25'67KHGDWDPDVNLQSXWPDVNV:5,7(GDWD/RZHUE\WHGDWD
PDVNHGZKHQ/'0[LVVDPSOHG+,*+XSSHUE\WHGDWDPDVNHGZKHQ8'0[LVVDPSOHG+,*+
-
7KH8'0[DQG/'0[SLQVDUHVWUXFWXUHGDVLQSXWVRQO\WKHSLQVHOHFWULFDOORDGLQJLVGHVLJQHGWR
PDWFKWKDWRIWKH'4DQG/'46[?8'46[DQG8'46[?SLQV
9
RAS\
Input ROW Address Strobe/Select: 'HILQHVWKHFRPPDQGEHLQJHQWHUHGDORQJ&$6?:(?DQG&6?
7KLVLQSXWSLQLVUHIHUHQFHGWR9UHI&$
9
CAS\
Input COLUMN Address Strobe/Select: 'HILQHVWKHFRPPDQGEHLQJHQWHUHGDORQJZLWK5$6?:(?
DQG&6?7KLVLQSXWSLQLVUHIHUHQFHGWR9UHI&$
8
WE\
Input WRITE Enable Input: 'HILQHVWKHFRPPDQGEHLQJHQWHUHGDORQJZLWK&$6?5$6?DQG&6?7KLV
LQSXWSLQLVUHIHUHQFHGWR9UHI&$
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 2 - BALL/SIGNAL LOCATION AND DESCRIPTION CONTINUED
Ball Assignments
Symbol
5
ODT
Type
Description
Input On-Die Termination: 2'7HQDEOHVZKHQUHJLVWHUHG+,*+DQGGLVDEOHVWHUPLQDWLRQUHVLVWDQFH
LQWHUQDOWRWKH''56'5$0:KHQHQDEOHGLQQRUPDORSHUDWLRQ2'7LVRQO\DSSOLHGWRHDFKRI
WKHIROORZLQJVLJQDOV'4>@/'4;[?8'46[?8'0[DQG/'0[7KH2'7LQSXWLVLJQRUHGLI
GLVDEOHGYLDWKH/2$'02'(UHJLVWHUFRPPDQG2'7LVUHIHUHQFHGWR9UHI&$
F5
RESET\
Input RESET: $QLQSXWFRQWUROSLQDFWLYH/2:UHIHUHQFHGWR9VV7KH5(6(7?LQSXWUHFHLYHULVD
&026LQSXWGHILQHGDVDUDLOWRUDLOVLJQDOZLWK'&+,*+t[9DDDQG'&/2:d[9DDQ.
5(6(7?DVVHUWLRQDQGGHDVVHUWLRQDUHDV\QFKURQRXV
T5, R3, T4, R2, F9, G11,
LDQSx,
F10, G12
LDQSx\
1111--
UDQSx,
--
UDQSx\
77987
DQ0, DQ1,
837
DQ2, DQ3,
Input Data Strobe, LOW Byte (per WORD): 2XWSXWHGJHDOLJQHGZLWK5($'GDWD,QSXWFHQWHU
DOLJQHGZLWK:5,7(GDWD
Input Data Strobe, HIGH Byte (per WORD): 2XWSXWHGJHDOLJQHGZLWK5($'GDWD,QSXWFHQWHU
DOLJQHGZLWK:5,7(GDWD
I/O
Data Input/Output: /2:%\WH/2::25':25'3LQUHIHUHQFHGWR9UHI'4
I/O
Data Input/Output: +,*+%\WH/2::25':25'3LQUHIHUHQFHGWR9UHI'4
I/O
Data Input/Output: /2:%\WH:25'3LQUHIHUHQFHGWR9UHI'4
I/O
Data Input/Output: +,*+%\WH:25'3LQUHIHUHQFHGWR9UHI'4
I/O
Data Input/Output: /2:%\WH:25'3LQUHIHUHQFHGWR9UHI'4
I/O
Data Input/Output: +,*+%\WH:25'3LQUHIHUHQFHGWR9UHI'4
DQ4, DQ5,
DQ6, DQ7
31551
DQ8, DQ9,
311
DQ10, DQ11,
DQ12, DQ13,
DQ14, DQ15
75887 DQ16, DQ17,
835
DQ18, DQ19,
DQ20, DQ21,
DQ22, DQ23
335533 DQ24, DQ25,
13
DQ26, DQ27,
DQ28, DQ29,
DQ30, DQ31
))'()
DQ32, DQ33,
(+)
DQ34, DQ35,
DQ36, DQ37,
DQ38, DQ39
+-**-
DQ40, DQ41,
+--
DQ42, DQ43,
DQ44, DQ45,
DQ46, DQ47
LOGIC Devices Incorporated
www.logicdevices.com
8
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 2 - BALL/SIGNAL LOCATION AND DESCRIPTION CONTINUED
Ball Assignments
Symbol
Type
Description
)*(()( DQ48, DQ49, Supply Data Input/Output: /2:%\WH+,*+:25':25'3LQUHIHUHQFHGWR9UHI'4
DQ50, DQ51,
+*
DQ52, DQ53,
DQ54, DQ55
++**+
+-+
DQ56, DQ57, Supply Data Input/Output: +,*+%\WH+,*+:25':25'3LQUHIHUHQFHGWR9UHI'4
DQ58, DQ59,
DQ60, DQ61,
DQ62, DQ63
B3, B5, B6, B8, B9, B11,
VDD
Supply 3RZHU6XSSO\9”9
&&-...
K12, L5, L9, M2, M6, M8,
1::<<
<<<<%
$$$$&
VDDQ
Supply 'DWD,26XSSO\9”9
&''..
009::
$$$$$$$$
%%%&&
Vss
Supply Ground
''+.//
/0399
::<<<
<<%$$
$$&&&&
&''''(
((())
**++-
-1133
557777
78888
9999:
:::::
$$$$$$$$(
$$$$%
VssQ
Supply 'DWD,2*URXQG,VRODWHGIURP&RUHIRULPSURYHGQRLVHLPPXQLW\
%//<<
$$$$$$$$
$$
L12
VSSDL
*URXQGIRU'//
M12
VDDDL
(
VrefCA
Supply 9ROWDJH5HIHUHQFH&25(9UHI&$PXVWEHPDLQWDLQHGDWDOOWLPHV
/
VrefDQ
Supply 9ROWDJH5HIHUHQFH,29UHI'4PXVWEHPDLQWDLQHGDWDOOWLPHV
&&''
ZQx
$%
UNPOPULATED
LOGIC Devices Incorporated
6XSSO\IRU'//
Ref.
([WHUQDO5HIHUHQFHIRURXWSXWGULYHFDOLEUDWLRQ
8QSRSXODWHGXQSODWHGPDWUL[ORFDWLRQV
www.logicdevices.com
9
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 5 - MECHANICAL DRAWING
”
”
[120
Ø
”
$
B
&
D
(
F
G
+
K
L
M
N
3
R
T
8
9
:
<
$$
20.00 NOM
0$;
1.00 NOM
1.00 NOM
12.00 NOM
1RWH$OOGLPHQVLRQVLQPP
LOGIC Devices Incorporated
www.logicdevices.com
10
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 3: ABSOLUTE MAXIMUM RATINGS
Symbol
MIN
MAX
UNITS
NOTES
9DD
9DD6XSSO\9ROWDJHUHODWLYHWR9VV
Parameter
-0.4
9
1
9DDQ
9DD6XSSO\9ROWDJHUHODWLYHWR9VVQ
-0.4
9
1
9IN9287
9ROWDJHRQDQ\SLQUHODWLYHWR9VV
-0.4
9
1
T$,QGXVWULDO
2SHUDWLQJ$PELHQW7HPSHUDWXUH
-40
85
°&
2,3
T$([WHQGHG
2SHUDWLQJ$PELHQW7HPSHUDWXUH
-40
105
°&
2,3
T$0LOWHPS
2SHUDWLQJ$PELHQW&DVH7HPSHUDWXUH
-55
125
°&
2,3
TSTG
6WRUDJH7HPSHUDWXUH
-55
120
°&
2,3
127(6
9DDDQG9DD4PXVWEHZLWKLQP9RIHDFKRWKHUDWDOOWLPHVDQG95()PXVWQRWEHJUHDWHUWKDQ[9DD4:KHQ9DD and
9DD4DUHOHVVWKDQ0995()PD\EHdP9
0D[RSHUDWLQJDPELHQWWHPSHUDWXUHT$LVPHDVXUHGLQWKHFHQWHURIWKHSDFNDJH
'HYLFH)XQFWLRQDOLW\LVQRWJXDUDQWHHGLIWKH'5$0GHYLFHH[FHHGVWKH0D[LPXP7$GXULQJRSHUDWLRQ
TABLE 4: INPUT/OUTPUT CAPACITANCE
PACKAGE OUTLINE DIMENSIONS
DDR3-800 DDR3-1066 DDR3-1333 DDR3-1600 DDR3-1866
Capacitance Parameter
Symbol MIN MAX MIN MAX MIN MAX MIN MAX MIN MAX UNITS NOTES
&.DQG&.?
&&.
3.1
6.2
3.1
6.2
3.0
6.1
3.0
6.1
3.0
6.1
S)
6LQJOHHQG,2'4'0
&10
1.5
3.0
1.5
3.0
1.5
2.5
1.5
2.5
1.5
2.5
S)
2
1.5
2.5
1.5
2.5
1.5
2.5
S)
3
12
22
12
22
12
22
S)
5
&10
'LIIHUHQWLDO,2'46'46?
,QSXWV5$6?&$6?:(?&6?&.(5(6(7?$''5%$ &,B6KDUHG
1.5
3.0
1.5
3.0
12
22
12
22
127(6
9DD 9”P99DDQ 9DD95() 9VVI 0+]T$ = 25°&9287'& [9DDQ9287SHDNWRSHDN 9
'0LQSXWLVJURXSHGZLWK,2SLQVUHIOHFWLQJWKHVLJQDOLVJURXSHGZLWK'4DQGWKHUHIRUHPDWFKHGLQORDGLQJ
&&&46LVIRU'46YV'46?
&DIO &,2'4[&,2>'[email protected]&,2>'[email protected]
([FOXGHV&.&.?
&',B&17/ &,&17/[&&.>&[email protected]&&.>&[email protected]&17/ 2'7&6?DQG&.(
&',B&0'B$''5 &,&0'B$''5[&&.>&[email protected]&&.>&[email protected]&0' 5$6?&$6?DQG:(?$''5 >[email protected]
LOGIC Devices Incorporated
www.logicdevices.com
11
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 5: TIMING PARAMETERS FOR IDD MEASUREMENTS - CLOCK UNITS
DDR3-800
DDR3-1066
DDR3-1333
DDR3-1600
DDR3-1866
-25
-19
-15
-12
-11
6-6-6
8-8-8
10-10-10
11-11-11
13-13-13
2.5
1.5
1.25
QV
&/,DD
6
8
10
11
13
&.
t5&'0,1,DD
6
8
10
11
13
&.
W5&0,1,DD
21
28
34
36
40
&.
t5$60,1,DD
15
20
24
28
32
&.
6
8
10
12
14
&.
20
30
33
36
&.
IDD Parameter
t&.0,1,DD
t530,1,DD
t)$:
[
tRRD IDD
[
t5)&
0[;
LOGIC Devices Incorporated
4
6
5
6
6
&.
44
59
90
110
&.
www.logicdevices.com
12
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
ODT
WE\
CAS\
RAS\
Sub-Loop
CKE
www.logicdevices.com
1
2
3
4
5
6
7
BA [2:0]
Cycle
Number
0
A [15:11]
PRE
A [10]
0
1
1
1
1
A [9:7]
ACT
D
D
D\
D\
0
PRE
A [6:3]
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
0
0
0
0
0
0
1
1
0
0
0
0
0
0
Repeat cycles 1 through 4 until n RAS - 1, truncate if needed
0
1
0
0
0
0
0
0
0
Repeat cycles 1 through 4 until n RC - 1, truncate if needed
0
1
1
0
0
0
0
0
F
0
0
0
0
0
0
0
0
F
0
0
0
0
0
0
0
0
F
1
1
1
0
0
0
0
0
F
1
1
1
0
0
0
0
0
F
Repeat cycles n RC +1 through n RC +4 until n RC - 1 + n RAS - 1, truncate if needed
0
1
0
0
0
0
0
0
F
Repeat cycles n RC +1 through n RC +4 until 2 x RC - 1, truncate if needed
Repeat sub-loop 0, use BA [2:0] = 1
Repeat sub-loop 0, use BA [2:0] = 2
Repeat sub-loop 0, use BA [2:0] = 3
Repeat sub-loop 0, use BA [2:0] = 4
Repeat sub-loop 0, use BA [2:0] = 5
Repeat sub-loop 0, use BA [2:0] = 6
Repeat sub-loop 0, use BA [2:0] = 7
CK, CK\
13
0
0
0
0
0
0
0
0
0
0
0
0
A [2:0]
0
0
0
1
1
-
-
-
-
Data
0
0
1
1
1
1
Command
ACT
D
D
D\
D\
CS\
0
1
2
3
4
n RAS
n RC
n RC + 1
n RC + 2
n RC + 3
n RC + 4
n RC + n RAS
2 x nRC
4 x n RC
6 x n RC
8 x n RC
10 x n RC
12 x n RC
14 x n RC
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 6: IDD0 MEASUREMENT LOOP
Static HIGH
Toggling
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
Cycle
Number
Sub-Loop
CKE
CK, CK\
LOGIC Devices Incorporated
www.logicdevices.com
14
2 x n RC
2 x n RC
2 x n RC
2 x n RC
2 x n RC
2 x n RC
2 x n RC
Command
1
2
3
4
5
6
7
CS\
0
1
1
1
1
0
0
ACT
D
D
D\
D\
RD
PRE
0
RAS\
PRE
0
1
0
0
0
1
1
0
CAS\
0
WE\
1
ODT
0
BA [2:0]
RD
A [15:11]
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
1
0
0
0
0
0
0
Repeat cycles 1 through 4 until nRCD - 1, truncate if needed
0
1
0
0
0
0
0
0
Repeat cycles 1 through 4 until nRAS - 1, truncate if needed
1
0
0
0
0
0
0
0
Repeat cycles 1 through 4 until nRC - 1, truncate if needed
1
1
0
0
0
0
0
F
0
0
0
0
0
0
0
F
0
0
0
0
0
0
0
F
1
1
0
0
0
0
0
F
1
1
0
0
0
0
0
F
Repeat cycles nRC + 1 through nRC + 4 until nRC + nRCD - 1, truncate if needed
0
1
0
0
0
0
0
F
Repeat cycles nRC + 1 through nRC + 4 until nRC + nRAS - 1, truncate if needed
1
0
0
0
0
0
0
F
Repeat cycle nRC + 1 through nRC + 4 until 2 x nRC - 1, truncate if needed
Repeat sub-loop 0, use BA [2:0] = 1
Repeat sub-loop 0, use BA [2:0] = 2
Repeat sub-loop 0, use BA [2:0] = 3
Repeat sub-loop 0, use BA [2:0] = 4
Repeat sub-loop 0, use BA [2:0] = 5
Repeat sub-loop 0, use BA [2:0] = 6
Repeat sub-loop 0, use BA [2:0] = 7
A [10]
1
0
0
1
1
A [9:7]
0
0
0
1
1
A [6:3]
0
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
A [2:0]
ACT
D
D
D\
D\
-
00110011
-
-
00000000
-
Data
0
1
2
3
4
n RCD
n RAS
n RC
n RC +1
nRC +2
n RC +3
n RC +4
n RC + nRCD
n RC + nRAS
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 7: IDD1 MEASUREMENT LOOP
Static HIGH
Toggling
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 8: IDD MEASUREMENT CONDITIONS FOR POWER-DOWN CURRENTS
IDD2P0
IDD2P1
IDD2Q
Precharge Power- Precharge PowerPrecharge Quiet
Down Current
Down Current
Standby Current
(Slow Exit)
(Fast Exit)
Name
7LPLQJ3DWWHUQ
&.(
([WHUQDO&ORFN
IDD3P
Active PowerDown Current
QD
QD
QD
QD
/2:
/2:
+,*+
/2:
Toggling
Toggling
Toggling
Toggling
t&.
t&.0,1,DD
t&.0,1,DD
t&.0,1,DD
t&.0,1,DD
t5&
Q?D
Q?D
Q?D
Q?D
t5$6
Q?D
Q?D
Q?D
Q?D
t5&'
Q?D
Q?D
Q?D
Q?D
tRRD
Q?D
Q?D
Q?D
Q?D
t5&
Q?D
Q?D
Q?D
Q?D
&/
Q?D
Q?D
Q?D
Q?D
$/
Q?D
Q?D
Q?D
Q?D
&6?
+,*+
+,*+
+,*+
+,*+
&RPPDQG,QSXWV
/2:
/2:
/2:
/2:
52:&2/801$GGU
/2:
/2:
/2:
/2:
%DQN$GGUHVV
/2:
/2:
/2:
/2:
DM
/2:
/2:
/2:
/2:
'DWD,2
0LGOHYHO
0LGOHYHO
0LGOHYHO
0LGOHYHO
2XWSXW%XIIHU'4'46
(QDEOHG
(QDEOHG
(QDEOHG
(QDEOHG
(QDEOHG2))
(QDEOHG2))
(QDEOHG2))
(QDEOHG2))
8
8
8
8
ODT
%XUVW/HQJWK
None
None
None
None
,'/(%DQNV
$OO
$OO
$OO
$OO
6SHFLDO1RWHV
Q?D
Q?D
Q?D
Q?D
$&7,9(%DQNV
LOGIC Devices Incorporated
www.logicdevices.com
15
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
A [15:11]
BA [2:0]
ODT
WE\
CAS\
RAS\
CKE
CK, CK\
www.logicdevices.com
0
0
0
0
0
0
F
F
0
1
2
3
4
5
6
7
D
D
D\
D\
Cycle
Number
Sub-Loop
LOGIC Devices Incorporated
0
0
0
0
Command
0
1
2
3
4-7
8-11
12-15
16-19
20-23
24-27
28-31
CS\
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Repeat sub-loop 0, use BA [2:0] = 1
Repeat sub-loop 0, use BA [2:0] = 2
Repeat sub-loop 0, use BA [2:0] = 3
Repeat sub-loop 0, use BA [2:0] = 4
Repeat sub-loop 0, use BA [2:0] = 5
Repeat sub-loop 0, use BA [2:0] = 6
Repeat sub-loop 0, use BA [2:0] = 7
A [10]
0
0
1
1
A [9:7]
0
0
1
1
A [6:3]
0
0
1
1
A [2:0]
1
1
1
1
Data
-
TABLE 9: IDD2N / IDD3N MEASUREMENT LOOP
Static HIGH
Toggling
16
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
D
D
D\
D\
A [15:11]
BA [2:0]
ODT
WE\
CAS\
RAS\
CS\
Sub-Loop
CKE
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
1
0
0
0
0
Repeat sub-loop 0, use BA [2:0] = 1; ODT = 0
Repeat sub-loop 0, use BA [2:0] = 2; ODT = 1
Repeat sub-loop 0, use BA [2:0] = 3; ODT = 1
Repeat sub-loop 0, use BA [2:0] = 4; ODT = 0
Repeat sub-loop 0, use BA [2:0] = 5; ODT = 0
Repeat sub-loop 0, use BA [2:0] = 6; ODT = 1
Repeat sub-loop 0, use BA [2:0] = 7; ODT = 1
A [10]
0
0
1
1
0
0
0
0
A [9:7]
0
0
1
1
0
0
F
F
A [6:3]
1
1
1
1
0
0
0
0
A [2:0]
1
2
3
4
5
6
7
Command
Cycle
Number
0
1
2
3
4-7
8-11
12-15
16-19
20-23
24-27
28-31
-
Data
0
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 10: IDD2NT MEASUREMENT LOOP
Static HIGH
CK, CK\
Toggling
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
BA [2:0]
ODT
WE\
CAS\
RAS\
CS\
Sub-Loop
CKE
CK, CK\
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Repeat sub-loop 0, use BA [2:0] = 1
Repeat sub-loop 0, use BA [2:0] = 2
Repeat sub-loop 0, use BA [2:0] = 3
Repeat sub-loop 0, use BA [2:0] = 4
Repeat sub-loop 0, use BA [2:0] = 5
Repeat sub-loop 0, use BA [2:0] = 6
Repeat sub-loop 0, use BA [2:0] = 7
A [15:11]
1
0
1
1
1
0
1
1
A [10]
0
0
1
1
0
0
1
1
0
0
0
0
0
0
0
0
A [9:7]
1
0
1
1
1
0
1
1
0
0
0
0
F
F
F
F
A [6:3]
0
1
1
1
0
1
1
1
0
0
0
0
0
0
0
0
A [2:0]
1
2
3
4
5
6
7
RD
D
D\
D\
RD
D
D\
D\
00000000
00110011
-
Data
0
Command
Cycle
Number
0
1
2
3
4
5
6
7
8-15
16-23
24-31
32-39
40-47
48-55
56-63
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 11: IDD4R MEASUREMENT LOOP
Static HIGH
Toggling
18
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
BA [2:0]
ODT
WE\
CAS\
RAS\
CS\
Sub-Loop
CKE
CK, CK\
1
0
0
1
0
0
1
0
0
1
0
0
1
0
0
1
0
0
1
0
0
1
0
0
Repeat sub-loop 0, use BA [2:0] = 1
Repeat sub-loop 0, use BA [2:0] = 2
Repeat sub-loop 0, use BA [2:0] = 3
Repeat sub-loop 0, use BA [2:0] = 4
Repeat sub-loop 0, use BA [2:0] = 5
Repeat sub-loop 0, use BA [2:0] = 6
Repeat sub-loop 0, use BA [2:0] = 7
A [15:11]
0
0
1
1
0
0
1
1
0
0
0
0
0
0
0
0
A [10]
0
0
1
1
0
0
1
1
0
0
0
0
0
0
0
0
A [9:7]
1
0
1
1
1
0
1
1
0
0
0
0
F
F
F
F
A [6:3]
0
1
1
1
0
1
1
1
0
0
0
0
0
0
0
0
A [2:0]
1
2
3
4
5
6
7
WR
D
D\
D\
WR
D
D\
D\
00000000
00110011
-
Data
0
Command
Cycle
Number
0
1
2
3
4
5
6
7
8-15
16-23
24-31
32-39
40-47
48-55
56-63
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 12: IDD4W MEASUREMENT LOOP
Stac HIGH
Toggling
19
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
REF
D
D
D\
D\
Cycle
Number
0
1
2
3
4
5-8
9-12
13-16
17-20
21-24
25-28
29-32
33-n RFC-1
Sub-Loop
CKE
CK, CK\
1b
1c
1d
1e
1f
1g
1h
2
1a
Command
0
A [9:7]
A [10]
A [15:11]
BA [2:0]
ODT
WE\
CAS\
Repeat sub-loop 1a, use BA [2:0] = 1
Repeat sub-loop 1a, use BA [2:0] = 2
Repeat sub-loop 1a, use BA [2:0] = 3
Repeat sub-loop 1a, use BA [2:0] = 4
Repeat sub-loop 1a, use BA [2:0] = 5
Repeat sub-loop 1a, use BA [2:0] = 6
Repeat sub-loop 1a, use BA [2:0] = 7
Repeat sub-loop 1a through 1h until
n RFC - 1, truncate if needed
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 13: IDD5B MEASUREMENT LOOP
Data
A [2:0]
A [6:3]
RAS\
CS\
Static HIGH
Toggling
20
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
PACKAGE OUTLINE DIMENSIONS
TABLE 14: IDD MEASUREMENT LOOP
,QGXVWULDO5DQJH ([WHQGHGRU0LO7HPSHUDWXUH5DQJH
T$ “&WR“&
T$ “&WR“&RU“&WR“&
IDD6: Self Refresh
Current
IDD6E/M: Self Refresh
Current
IDD8: Reset
&.(
/2:
/2:
0LGOHYHO
([WHUQDO&ORFN
2II&.DQG&.? /2:
2II&.DQG&.? /2:
0LGOHYHO
t&.
Q?D
Q?D
Q?D
IDD Test
t5&
Q?D
Q?D
Q?D
t5$6
Q?D
Q?D
Q?D
t5&'
Q?D
Q?D
Q?D
tRRD
Q?D
Q?D
Q?D
t5&
Q?D
Q?D
Q?D
&/
Q?D
Q?D
Q?D
$/
Q?D
Q?D
Q?D
&6?
0LGOHYHO
0LGOHYHO
0LGOHYHO
&RPPDQG,QSXWV
0LGOHYHO
0LGOHYHO
0LGOHYHO
52:&2/081DGGUHVVHV
0LGOHYHO
0LGOHYHO
0LGOHYHO
%$1.DGGUHVVHV
0LGOHYHO
0LGOHYHO
0LGOHYHO
'DWD,2
0LGOHYHO
0LGOHYHO
0LGOHYHO
2XWSXWEXIIHU'4'46
(QDEOHG
(QDEOHG
0LGOHYHO
ODT
(QDEOHG0LGOHYHO
(QDEOHG0LGOHYHO
0LGOHYHO
%XUVW/HQJWK
Q?D
Q?D
Q?D
$FWLYH%$1.6
Q?D
Q?D
None
,'/(%$1.6
Q?D
Q?D
$OO
SRT
'LVDEOHGQRUPDO
(QDEOHGH[WHQGHG
Q?D
$65
'LVDEOHG
'LVDEOHG
Q?D
LOGIC Devices Incorporated
www.logicdevices.com
21
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
Sub-Loop
CKE
www.logicdevices.com
CK, CK\
22
19
15
16
17
18
14
12
13
11
10
9
5
6
7
8
Cycle
Number
0
0
1
ACT
RDA
D
D
1
1
0
0
1
ACT
RDA
D
D
1
D
RAS\
1
0
0
0
1
0
0
1
0
0
0
CAS\
D
WE\
0
1
0
ODT
4
0
0
1
ACT
RDA
D
BA [2:0]
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
Repeat cycle 2 until n RRD - 1
1
1
0
1
0
0
0
0
1
0
1
0
1
0
0
0
0
1
0
0
0
Repeat cycle n RRD + 2 until 2 x n RRD - 1
Repeat sub-loop 0, use BA[2:0] = 2
Repeat sub-loop 0, use BA[2:0] = 3
0
0
0
3
0
0
0
Repeat cycle 4 x n RRD until n FAW - 1, if needed
Repeat sub-loop 0, use BA[2:0] = 4
Repeat sub-loop 1, use BA[2:0] = 5
Repeat sub-loop 0, use BA[2:0] = 6
Repeat sub-loop 1, use BA[2:0] = 7
0
0
0
7
0
0
0
Repeat cycle n FAW + 4 x n RRD until 2 x n FAW - 1, if needed
1
1
0
0
0
0
0
0
1
0
0
0
1
0
0
0
0
0
0
0
0
Repeat cycle 2 x n FAW + 2 until 2 x n FAW + n RRD - 1
1
1
0
1
0
0
0
0
1
0
1
0
1
0
0
0
0
1
0
0
0
Repeat cycle 2 x n FAW + n RRD + 2 until 2 x n FAW + 2 x n RRD - 1
Repeat sub-loop 10, use BA[2:0] = 2
Repeat sub-loop 11, use BA[2:0] = 3
0
0
0
3
0
0
0
Repeat cycle 2 x n FAW + 4 x n RRD until 3 x n FAW - 1, if needed
Repeat sub-loop 10, use BA[2:0] = 4
Repeat sub-loop 11, use BA[2:0] = 5
Repeat sub-loop 10, use BA[2:0] = 6
Repeat sub-loop 11, use BA[2:0] = 7
0
0
0
7
0
0
0
Repeat cycle 3 x n FAW + 4 x n RRD until 4 x n FAW - 1, if needed
A [15:11]
1
1
0
A [10]
1
0
0
A [9:7]
0
1
0
0
0
0
0
0
F
F
F
F
F
F
F
F
0
0
0
A [6:3]
2
3
0
0
1
Command
ACT
RDA
D
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
A [2:0]
1
CS\
0
1
2
3
n RRD
n RRD + 1
n RRD + 2
n RRD + 3
2 x n RRD
3x n RRD
4 x n RRD
4 x n RRD + 1
n FAW
n FAW + n RRD
n FAW + 2xn RRD
n FAW + 3xn RRD
n FAW + 4xn RRD
n FAW + 4xn RRD+1
2 x n FAW
2 x n FAW + 1
2 x n FAW + 2
2 x n FAW + 3
2 x n FAW + n RRD
2 x n FAW + n RRD+1
2 x n FAW + n RRD+2
2 x n FAW + n RRD+3
2 x nFAW + 2x n RRD
2 x n FAW + 3x n RRD
2 x n FAW + 4x n RRD
2 x n FAW+4x n RRD+1
3 x nFAW
3 x nFAW + nRRD
3 x nFAW + 2x nRRD
3 x nFAW + 3x nRRD
3 x nFAW + 4x nRRD
3 x nFAW + 4x nRRD +1
-
00000000
-
00110011
-
-
-
00110011
-
00000000
-
Data
0
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 15: IDD7 MEASUREMENT LOOP
Static HIGH
Toggling
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 16: IDD MAXIMUM LIMITS
Speed Bin
IDD
DDR3-800
DDR3-1066
DDR3-1333
DDR3-1600
DDR3-1866
UNITS
IDD0
IDD1
IDD3
IDD3
IDD2Q
IDD2N
IDD3
IDD3N
IDD4R
IDD:
IDD5B
IDD6
IDD
IDD8
360
440
40
100
180
200
100
200
520
840
800
28
1400
IDD3P$
IDD3P$
IDD3P$
400
520
40
100
200
220
120
220
640
1060
880
28
1520
IDD3P$
IDD3P$
IDD3P$
440
600
40
120
220
240
140
240
800
1300
960
28
1680
IDD3P$
IDD3P$
IDD3P$
480
680
40
140
240
260
160
260
1000
1600
1040
28
2400
IDD3P$
IDD3P$
IDD3P$
520
40
150
260
280
180
280
1200
1800
1080
28
TBD
IDD3P$
IDD3P$
IDD3P$
P$
P$
P$
P$
P$
P$
P$
P$
P$
P$
P$
P$
P$
P$
P$
P$
IND
(;7
0,/7(03
127(6T$ = 0°&WRd 85°&657DQG$65DUHGLVDEOHGHQDEOLQJ$65FRXOGLQFUHDVH,DD[E\XSWRDQDGGLWLRQDOP$
LOGIC Devices Incorporated
www.logicdevices.com
23
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 17: DC ELECTRICAL CHARACTERISTICS AND OPERATINGPC
ONDITIONS
ACKAGE
OUTLINE DIMENSIONS
$OO9ROWDJHVDUHUHIHUHQFHGWR9VV
Parameter/Condition
Supply Voltage
I/O Supply Voltage
Input Leakage Current:
Symbol
MIN
TYP
MAX
UNITS
NOTES
9DD
1.425
1.5
9
1,2
9DDQ
1.425
1.5
9
1,2
II
-2
-
2
˜$
I95()
-1
-
1
˜$
$Q\LQSXW9d9INd9DD95()SLQ9d9INd9
$OORWKHUSLQVQRWXQGHUWHVW 9
VREF Supply Leakage Current:
3,4
95()'4 9DDRU95()&$ 9DD
$OORWKHUSLQVQRWXQGHUWHVW 9
127(6
1.
9DDDQG9DD4PXVWWUDFNRQHDQRWKHU9DD4PXVWEHOHVVWKDQRUHTXDO
3.
95()VHH7DEOH
4.
7KH PLQLPXP OLPLW UHTXLUHPHQW LV IRU WHVWLQJ SXUSRVHV 7KH OHDNDJH
WR9DD9VV 9VV4
2.
9DDDQG9DD4PD\LQFOXGH$&QRLVHRI”P9N+]WR0+]LQ
FXUUHQWRQWKH95()SLQVKRXOGEHPLQLPDO
DGGLWLRQWRWKH'&+]WRN+]VSHFLILFDWLRQV9DDDQG9DD4PXVW
EHDWWKHVDPHOHYHOIRUYDOLG$&WLPLQJSDUDPHWHUV
TABLE 18: DC ELECTRICAL CHARACTERISTICS AND INPUT CONDITIONS
PACKAGE OUTLINE DIMENSIONS
$OO9ROWDJHVDUHUHIHUHQFHGWR9VV
Parameter/Condition
VIN low; DC/commands/address busses
VIN high; DC/commands/address busses
Symbol
MIN
TYP
9IL
9VV
QD
9,+
6HH7DEOH
MAX
UNITS
6HH7DEOH
9
QD
9DD
9
NOTES
Input reference voltage command/address bus
95()&$'&
[9DD
[9DD
[9DD
9
1,2
I/O reference voltage DQ bus
95()'4'&
[9DD
[9DD
[9DD
9
2,3
I/O reference voltage DQ bus in SELF REFRESH
95()'465
9VV
[9DD
9DD
9
4
9TT
-
[9DDQ
-
9
5
Command/address termination voltage V\VWHPOHYHOQRW
GLUHFW'5$0LQSXW
127(6
1.
95()&$'&LVH[SHFWHGWREHDSSUR[LPDWHO\[9DDDQGWRWUDFNYDUL-
PRQ PRGH RQ 95()'4 PD\ QRW H[FHHG ” [ 9DD DURXQG WKH
DWLRQVLQWKH'&OHYHO([WHUQDOO\JHQHUDWHGSHDNQRLVHQRQFRPPRQ
95()'4'&YDOXH3HDNWRSHDN$&QRLVHRQ95()'4VKRXOGQRW
PRGHRQ95()&$PD\QRWH[FHHG”[9DDDURXQGWKH95()&$'&
H[FHHG”RI95()'4'&
YDOXH3HDNWRSHDN$&QRLVHRQ95()&$VKRXOGQRWH[FHHG”RI
95()&$'&
4.
95()'4'& PD\ WUDQVLWLRQ WR 95()'465 DQG EDFN WR 95()'4'&
ZKHQ LQ 6(/) ]5()5(6+ ZLWKLQ UHVWULFWLRQV RXWOLQHG LQ WKH 6(/)
2.
'&YDOXHVDUHGHWHUPLQHGWREHOHVVWKDQ0+]LQIUHTXHQF\'5$0
5()5(6+VHFWLRQ
PXVW PHHW VSHFLILFDWLRQV LI WKH '5$0 LQGXFHV DGGLWLRQDO $& QRLVH
JUHDWHUWKDQ0+]LQIUHTXHQF\
5.
9TT LV QRW DSSOLHG GLUHFWO\ WR WKH GHYLFH 9TT LV D V\VWHP VXSSO\ IRU
VLJQDOWHUPLQDWLRQUHVLVWRUV0,1DQG0$;YDOXHVDUHV\VWHPGHSHQ-
3.
95()'4'& LV H[SHFWHG WR EH DSSUR[LPDWHO\ [ 9DD DQG WR WUDFN
dent.
YDULDWLRQVLQWKH'&OHYHO([WHUQDOO\JHQHUDWHGSHDNQRLVHQRQFRP-
LOGIC Devices Incorporated
www.logicdevices.com
24
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 19: INPUT SWITCHING CONDITIONS
PACKAGE OUTLINE DIMENSIONS DDR3-1333
Symbol
DDR3-1066
DDR3-800
DDR3-1600
DDR3-1866
UNITS
9,+$&0,1
P9
Input high AC voltage: Logic 1
9,+$&0,1
P9
Input high DC voltage: Logic 1
9,+'&0,1
P9
Input high DC voltage: Logic 0
9,/'&0$;
-100
-100
P9
Input high AC voltage: Logic 0
9,/$&0$;
-150
-150
P9
Input high AC voltage: Logic 0
9,/$&0$;
P9
Input high AC voltage: Logic 1
9,+$&0,1
-
P9
Input high AC voltage: Logic 1
9,+$&0,1
P9
Input high DC voltage: Logic 1
9,+'&0,1
P9
Input high DC voltage: Logic 0
9,/'&0$;
-100
-100
P9
Input high AC voltage: Logic 0
9,/$&0$;
-150
-150
P9
Input high AC voltage: Logic 0
9,/$&0$;
-
P9
Parameter/Condition
&RPPDQGDQG$GGUHVV
Input high AC voltage: Logic 1
DQ and DM
127(6
1.
$OOYROWDJHVDUHUHIHUHQFHGWR95()95()LV95()&$IRUFRQWUROFRP-
3.
PDQGDQGDGGUHVV$OOVOHZUDWHVDQGVHWXSKROGWLPHVDUHVSHFLILHGDW
,QSXWKROGWLPLQJSDUDPHWHUVt,+DQG t'+DUHUHIHUHQFHGDW9IL'&
9,+'&QRW95()$&
WKH'5$0EDOO95()LV95()'4IRU'4DQG'0LQSXWV
4.
2.
,QSXWVHWXSWLPLQJSDUDPHWHUVtIS and t'6DUHUHIHUHQFHGDW9IL$&
6LQJOHHQGHG LQSXW VOHZ UDWH 9QV PD[LPXP LQSXW YROWDJH VZLQJ
XQGHUWHVWLVP9SHDNWRSHDN
9,+$&QRW95()'&
LOGIC Devices Incorporated
www.logicdevices.com
25
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
OPERATING CONDITIONS
FIGURE 6 - INPUT SIGNAL
VIL and VIH levels with ringback
1.90V
VDDQ + 0.4V narrow pulse width
1.50V
VDDQ
Minimum VIL and VIH levels
VIH (AC)
0.925V
0.925V
VIH (AC)
VIH (DC)
VIH (DC)
0.850V
0.850V
0.780V
0.765V
0.750V
0.735V
0.720V
0.780V
0.765V
0.750V
0.735V
0.720V
VREF + AC noise
VREF + DC error
VREF + DC error
VREF + AC noise
0.650V
VIL (DQ)
0.575V
VIL (AC)
0.650V
VIL (DC)
0.575V
VIL (AC)
VSS
0.0V
VSS 0.4V narrow pulse width
-0.40V
Notes:
LOGIC Devices Incorporated
www.logicdevices.com
1. Numbers in diagrams reflect nominal values.
26
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
AC OVERSHOOT/UNDERSHOOT SPECIFICATION
TABLE 20: CONTROL AND ADDRESS PINS
Parameter
PACKAGE OUTLINE DIMENSIONS
DDR3-800
DDR3-1066
9
9
9
9
9
9
9
9
9
9
Maximum overshoot area above VDD VHH)LJXUH
9QV
9QV
9QV
9QV
9QV
Maximum undershoot area below Vss VHH)LJXUH
9QV
9QV
9QV
9QV
9QV
Maximum peak amplitude allowed for overshoot area
DDR3-1333 DDR3-1600
DDR3-1866
VHH)LJXUH
Maximum peak amplitude allowed for underrshoot area
VHH)LJXUH
TABLE 21: CLOCK, DATA, STROBE, AND MASK PINS
Parameter
Maximum peak amplitude allowed for overshoot area
PACKAGE OUTLINE DIMENSIONS
DDR3-800
DDR3-1066
9
9
DDR3-1333 DDR3-1600
9
9
DDR3-1866
9
9
9
9
9
9
9QV
9QV
9QV
9QV
9QV
9QV
9QV
9QV
9QV
9QV
VHH)LJXUH
Maximum peak amplitude allowed for undershoot area
VHH)LJXUH
Maximum overshoot area above VDD/ VDDQ
VHH)LJXUH
Maximum undershoot area below Vss/ VssQ
VHH)LJXUH
FIGURE 7 & 8: OVERSHOOT/UNDERSHOOT SPECIFICATIONS
Maximum amplitude
Volts (V)
Figure 7: Overshoot
Overshoot area
VDD/VDDQ
Time (ns)
Time (ns)
Figure 8: Undershoot
VSS/VSSQ
Volts (V)
Maximum amplitude
LOGIC Devices Incorporated
www.logicdevices.com
Undershoot area
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 22: DIFFERENTIAL INPUT OPERATING CONDITIONS (CKXP, ACKAGE
CKX\, DQS
X, AND
DQSX\)
OUTLINE
DIMENSIONS
Parameter/Condition
Symbol
MIN
MAX
UNITS
NOTES
Differential input voltage, logic high - slew
9,+',))$&VOHZ
QD
P9
4
Differential input voltage, logic low - slew
9IL ',))$&VOHZ
QD
-200
P9
4
Differential input voltage, logic high
9,+',))$&
[9,+$&95()
9DD9DDQ
P9
5
Differential input voltage, logic low
9IL ',))$&
9VV9VVQ
[95()9IL$&
P9
6
9,;
95()'&
95()'&
P9
9,;
95()'&
95()'&
P9
96+(
9DD49,+$&
9DDQ
P9
5
9DD9,+$&
9DD
9VVQ
9DD49IL$&
P9
6
9VV
9DD-9IL$&
Differential input crossing voltage relative to VDD/2
for DQS, DQS\, CK, CK\
Differential input crossing voltage relative to VDD/2
for CK, CK\
Single-ended high level for strobes
Single-ended high level for CK, CK\
Single-ended low level for strobes
96(/
Single-ended low level for CK, CK\
127(6
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5.
0$; OLPLW LV UHODWLYH WR VLQJOHHQGHG VLJQDOV WKH RYHUVKRRW VSHFLILFD-
9,;H[WHQGHGUDQJHLVRQO\DOORZHGZKHQWKHIROORZLQJFRQGLWLRQVDUH
WLRQVDUHDSSOLFDEOH
PHW7KHVLQJOHHQGHGLQSXWVLJQDOVDUHPRQRWRQLFKDYHWKHVLQJOH
WUDQVPLWWLQJGHYLFHDQG9,;$&LVH[SHFWHGWRWUDFNYDULDWLRQVLQ9DD.
9,;$& LQGLFDWHV WKH YROWDJH DW ZKLFK GLIIHUHQWLDO LQSXW VLJQDOV PXVW
FURVV
8.
7KH9,;H[WHQGHGUDQJH”P9LVDOORZHGRQO\IRUWKHFORFNDQGWKLV
HQGHGVZLQJ96(/96(+RIDWOHDVW9DD”P9DQGWKHGLIIHUHQWLDO
VOHZUDWHRI&.&.?LVJUHDWHUWKDQ9QV
LOGIC Devices Incorporated
www.logicdevices.com
28
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
OVERSHOOT/UNDERSHOOT SPECIFICATIONS
FIGURE 9 - VIX FOR DIFFERENTIAL SIGNALS
VDD, VDDQ
VDD, VDDQ
CK#, DQS#
CK#, DQS#
VIX
X
VIX
VDD/2, VDDQ/2
X
VDD/2, VDDQ/2
X
VIX
VIX
X
CK, DQS
CK, DQS
VSS, VSSQ
VSS, VSSQ
FIGURE 10 - SINGLE-ENDED REQUIREMENTS FOR DIFFERENTIAL SIGNALS
V DD or VDD Q
VSEH (MIN)
V DD /2 or VDD Q/2
VSEH
CK or DQS
VSEL (MAX)
VSEL
VSS or VSS Q
LOGIC Devices Incorporated
www.logicdevices.com
29
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
OVERSHOOT/UNDERSHOOT SPECIFICATIONS
FIGURE 11 - DEFINITION OF DIFFERENTIAL AC-SWING AND tDVAC
t DVAC
V IHDIFF ( A C) MIN
V IHDIFF (MIN)
V IHDIFF ( DC) MIN
CK - CK#
DQ S - DQS #
0.0
V ILDIFF ( DC) MAX
V ILDIFF (MAX)
V ILDIFF ( A C) MAX
t DVAC
half cycle
TABLE 23: DIFFERENTIAL INPUT OPERATING CONDITIONS (tDVAC)
FOR CK
X, CKD
X\,
DQSX, AND DQSX\
PACKAGE
OUTLINE
IMENSIONS
%HORZ9IL$&
tDVAC (ps) at [VIHDIFF(AC) to VILDiff(AC)]
LOGIC Devices Incorporated
Slew Rate (V/ns)
350mV
300mV
-4.0
4.0
3.0
50
2.0
38
163
1.9
34
162
1.6
29
161
1.4
22
159
1.2
13
155
1.0
0
150
<1.0
0
150
www.logicdevices.com
30
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
SLEW RATE DEFINITIONS FOR SINGLE-ENDED INPUT SIGNALS
+ROGt,+DQGt'+QRPLQDOVOHZUDWHIRUDULVLQJVLJQDOLVGHILQHGDVWKHVOHZ
UDWHEHWZHHQWKHODVWFURVVLQJRI9IL'&0$;DQGWKHILUVWFURVVLQJRI95().
+ROGt,+DQGt'+QRPLQDOVOHZUDWHIRUDIDOOLQJVLJQDOLVGHILQHGDVWKHVOHZ
UDWHEHWZHHQWKHODVWFURVVLQJRI9,+'&0,1DQGWKHILUVWFURVVLQJRI95().
6HWXS tIS and t'6 QRPLQDO VOHZ UDWH IRU D ULVLQJ VLJQDO LV GHILQHG DV WKH
VOHZUDWHEHWZHHQWKHODVWFURVVLQJRI95()DQGWKHILUVWFURVVLQJ9,+$&
0,1 6HWXS tIS and t'6 QRPLQDO VOHZ UDWH IRU D IDOOLQJ VLJQDO LV GHILQHG
DVWKHVOHZUDWHEHWZHHQWKHODVWFURVVLQJRI95()DQWKHILUVWFURVVLQJRI
9IL$&0$;
TABLE 24: SINGLE-ENDED INPUT SLEW RATE
Measured
Input Slew Rate (Linear Signals)
Input
PACKAGE OUTLINE DIMENSIONS
Edge
From
To
5LVLQJ
95()
9,+$&0,1
Falling
95()
9IL$&0$;
5LVLQJ
9IL'&0D[
95()
Setup
Calculation
9,+$&0,195()
95()9IL$&0$;
'TFS
95()9IL'&0$;
'7)+
Hold
Falling
9,+'&0,1
95()
9,+'&0,195()
'756+
LOGIC Devices Incorporated
www.logicdevices.com
31
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
SLEW RATE DEFINITIONS FOR SINGLE-ENDED INPUT SIGNALS
FIGURE 12 - NOMINAL SLEW RATE DEFINITION FOR SINGLE-ENDED INPUT SIGNALS
ΔTRS
Setup
Single-ended input voltage (DQ, CMD, ADDR)
VIH(AC) MIN
VIH(DC) MIN
VREFDQ or
VREFCA
VIL(DC) MAX
VIL(AC) MAX
ΔTFS
ΔTRH
Hold
Single-ended input voltage (DQ, CMD, ADDR)
VIH(AC) MIN
VIH(DC) MIN
VREFDQ or
VREFCA
VIL(DC) MAX
VIL(AC) MAX
ΔTFH
LOGIC Devices Incorporated
www.logicdevices.com
32
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
SLEW RATE DEFINITIONS FOR DIFFERENTIAL INPUT SIGNALS
,QSXWVOHZUDWHIRUGLIIHUHQWLDOVLJQDOV&.[&.[?8'46[8'46[?/'46[DQG/'46[?DUHGHILQHGDQGPHDVXUHGDVVKRZQLQ7DEOH7KHQRPLQDOVOHZ
UDWHIRUDULVLQJVLJQDOLVGHILQHGDVWKHVOHZUDWHEHWZHHQ9IL',))0$;DQG9,+',))0,17KHQRPLQDOVOHZUDWHIRUDIDOOLQJVLJQDOLVGHILQHGDVWKHVOHZ
UDWHEHWZHHQ9,+',))0,1DQG9IL',))0$;
TABLE 25: DIFFERENTIAL INPUT SLEW RATE DEFINITION
Measured
Input Slew Rate (Linear Signals)
Input
Edge
PACKAGE OUTLINE DIMENSIONS
From
5LVLQJ
95()
To
Calculation
9,+',))0,1- 9IL',))0$;
9,+$&0,1
'75',))
CK and DQS
Reference
9,+',))0,1 9IL',))0$;
Falling
95()
9,/$&0$;
'7)',))
FIGURE 13 - NOMINAL DIFFERENTIAL INPUT SLEW RATE DEFINITION FOR DQS, DQS# AND CK, CK#
Differential input voltage (DQS, DQS#; CK, CK#)
ΔTR DIFF
VIH(DIFF) MIN
0
VIL(DIFF) MAX
ΔTFDIFF
LOGIC Devices Incorporated
www.logicdevices.com
33
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ODT CHARACTERISTICS
FIGURE 14 - ODT LEVELS AND I-V CHARACTERISTICS
Chip in termination mode
2'7uV HIIHFWLYH UHVLVWDQFH 5TT LV GHILQHG E\ 05> DQG @ 2'7 LV
DSSOLHGWRWKH'4[8'0[/'0[8'46[8'46[?/'46[DQG/'46[?
EDOOV7KH2'7WDUJHWYDOXHVDUHOLVWHGLQ7DEOH
ODT
VDD Q
IPU
IOUT = IPD - IPU
To
other
circuitry
such as
RCV, . . .
RTTPU
DQ
IOUT
R TTPD
VOUT
IPD
VSSQ
TABLE 26: ON-DIE TERMINATION DC ELECTRICAL CHARACTERISTICS
Parameter/Condition
Symbol
RTTHIIHFWLYHLPSHGDQFH
RTTB())
'HYLDWLRQRI90ZLWKUHVSHFWWR9DD4
'90
MIN
TYP
MAX
UNITS
NOTES
%
1, 2, 3, 4
1, 2, 4
6HH7DEOH
-5
5
127(6
1.
7ROHUDQFH OLPLWV DUH DSSOLFDEOH DIWHU D SURSHU =4 FDOLEUDWLRQ KDV EHHQ
3.
0HDVXUHYROWDJH90DWWKHWHVWHGSLQZLWKQRORDG
SHUIRUPHGDWDVWDEOHWHPSHUDWXUHDQGYROWDJH9DD4 9DD9VV49VV
5HIHUWRv2'76HQVLWLYLW\wRQSDJHLIHLWKHUWKHWHPSHUDWXUHRUYROWDJH
'90
FKDQJHVDIWHUFDOLEUDWLRQ
2.
[90
[
9DDQ
0HDVXUHPHQWGHILQLWLRQIRU5TT$SSO\9,+$&WRDSLQXQGHUWHVWDQG
PHDVXUHWKHFXUUHQW,>9,+$&@WKHQDSSO\9IL$&WRSLQXQGHUWHVWDQG
4.
)RU H[WHQGHG 0,/WHPS GHYLFHV WKH PLQLPXP YDOXHV DUH GHUDWHG E\
ZKHQWKHGHYLFHLVEHWZHHQ“&DQG“&T$
PHDVXUHFXUUHQW,>9IL$&@
9IL$&9IL$&
RTT =
LOGIC Devices Incorporated
,>9,+$&,9IL$&@
www.logicdevices.com
34
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 27: RTT EFFECTIVE IMPEDANCES
MR1
[9,6,2]
RTT
PACKAGE OUTLINE DIMENSIONS
Resistor
RTT1203'240
0, 1, 0
120:
RTT12038240
120:
RTT603'120
0, 0, 1
60:
RTT6038240
60:
RTT403'80
0, 1, 1
40:
RTT403880
40:
RTT303'60
1, 0, 1
30:
RTT303860
30:
RTT203'40
1, 0, 0
20:
RTT203840
20:
LOGIC Devices Incorporated
www.logicdevices.com
VOUT
MIN
TYP
MAX
UNITS
[9DDQ
0.6
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
9IL$&WR9,+$&
0.9
1.0
1.6
5=4
[9DDQ
0.6
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
9IL$&WR9,+$&
0.9
1.0
1.6
5=4
[9DDQ
0.6
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
9IL$&WR9,+$&
0.9
1.0
1.6
5=4
[9DDQ
0.6
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
9IL$&WR9,+$&
0.9
1.0
1.6
5=4
[9DDQ
0.6
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.4
5=4
[9DDQ
0.9
1.0
1.1
5=4
[9DDQ
0.9
1.0
1.1
5=4
9IL$&WR9,+$&
0.9
1.0
1.6
5=4
35
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ODT SENSITIVITY
,IHLWKHUWKHWHPSHUDWXUHRUYROWDJHFKDQJHVDIWHU,2FDOLEUDWLRQWKHWROHUDQFHOLPLWVOLVWHGLQ7DEOHFDQEHH[SHFWHGWRZLGHQDFFRUGLQJWR7DEOHVDQG
TABLE 28: ODT SENSITIVITY DEFINITION
Symbol
RTT
MIN
0.9 - dRTTG7[G5TTG9[>'[email protected]
MAX
UNITS
5=4
G5TTG7[>'[email protected][>'[email protected]
TABLE 29 - ODT TEMPERATURE & VOLTAGE SENSITIVITY
Change
MIN
MAX
UNITS
dRTTdT
0
1.5
0
dRTTdV
0
0.15
0
FIGURE 15 - ODT TIMING REFERENCE LOAD
ODT TIMING DEFINITIONS
2'7ORDGLQJGLIIHUVIURPWKDWXVHGLQ$&WLPLQJPHDVXUHPHQWV7ZRSDUDPHWHUVGHILQHZKHQ2'7WXUQVRQRURIIV\QFKURQRXVO\WZRGHILQHZKHQ2'7
WXUQVRQRURII$V\QFKURQRXVO\DQGDQRWKHUGHILQHVZKHQ2'7WXUQVRQRU
RIIG\QDPLFDOO\7DEOHRXWOLQHVDQGSURYLGHVGHILQLWLRQDQGPHDVXUHPHQW
UHIHUHQFHVHWWLQJVIRUHDFKSDUDPHWHU
DUT
CK, CK#
2'7 WXUQRQ WLPH EHJLQV ZKHQ WKH RXWSXW OHDYHV +,*+= DQG 2'7 UHVLVWDQFHEHJLQVWRWXUQRQ2'7WXUQRIIWLPHEHJLQVZKHQWKHRXWSXWOHDYHV
/2:=DQG2'7UHVLVWDQFHEHJLQVWRWXUQRII
VREF
DQ, DM
DQS, DQS#
ZQ
VDDQ/2
RTT = 25Ω
VTT = VSSQ
Timing reference point
RZQ = 240Ω
VSSQ
LOGIC Devices Incorporated
www.logicdevices.com
36
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ODT TIMING DEFINITIONS
TABLE 30: ODT TIMING DEFINITIONS
Symbol
PACKAGE OUTLINE DIMENSIONS
End Point Definition
Figure
5LVLQJHGJHRI&.&.?GHILQHGE\WKHHQGSRLQWRI2'7/RQ
Begin Point Definition
([WUDSRODWHGSRLQWDW9VV4
)LJXUHRQSDJH
tAOF
5LVLQJHGJHRI&.&.?GHILQHGE\WKHHQGSRLQWRI2'7/RII
([WUDSRODWHGSRLQWDW95TT_NORM
)LJXUHRQSDJH
tAONPD
5LVLQJHGJHRI&.&.?ZLWK2'7ILUVWEHLQJUHJLVWHUHG+,*+
([WUDSRODWHGSRLQWDW9VV4
)LJXUHRQSDJH
5LVLQJHGJHRI&.&.?ZLWK2'7ILUVWEHLQJUHJLVWHUHG/2:
([WUDSRODWHGSRLQWDW95TT_NOM
)LJXUHRQSDJH
5LVLQJHGJHRI&.&.?GHILQHGE\WKHHQGSRLQWRI2'7/&1:
([WUDSRODWHGSRLQWVDW95TTB:5DQG95TT_NOM
)LJXUHRQSDJH
tAON
tAOFPD
tADC
2'7/&:1RU2'7/&:1
TABLE 31: REFERENCE SETTINGS FOR ODT TIMING MEASUREMENTS
PACKAGE OUTLINE DIMENSIONS
Measured
Parameter
RTT_NORM Setting
tAON
tAOF
tAONPD
VSW1
VSW2
5=4:
RTT_WR_Setting
QD
P9
P9
5=4:
QD
P9
P9
5=4:
QD
P9
P9
5=4:
QD
P9
P9
5=4:
QD
P9
P9
5=4:
QD
P9
P9
tAOFPD
5=4:
QD
P9
P9
5=4:
QD
P9
P9
tADC
5=4:
5=4:
P9
P9
FIGURE 16 - tAON AND tAOF DEFINITIONS
t AON
t AOF
Begin point: Rising edge of CK - CK#
defined by the end point of ODTL off
Begin point: Rising edge of CK - CK#
defined by the end point of ODTL on
CK
CK
VDDQ/2
CK#
CK#
t AON
t AOF
End point: Extrapolated point at VRTT_NOM
TSW 2
VRTT_NOM
TSW 1
TSW 1
TSW 1
VSW 2
DQ, DM
DQS, DQS#
VSS Q
VSW 2
VSW 1
VSW 1
VSS Q
End point: Extrapolated point at VSS Q
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ODT CHARACTERISTICS
FIGURE 17 - tAONPD AND tAOFPD DEFINITION
t AONPD
t AOFPD
Begin point: Rising edge of CK - CK#
with ODT first registered HIGH
Begin point: Rising edge of CK - CK#
with ODT first registered LOW
CK
CK
VDD Q/2
CK#
CK#
t AONPD
t AOFPD
End point: Extrapolated point at VRTT_NOM
VRTT_NOM
TSW 2
TSW 2
TSW 1
TSW 1
VSW 2
VSW 2
DQ, DM
DQS, DQS#
VSW 1
VSW1
VSS Q
VSS Q
End point: Extrapolated point at VSS Q
FIGURE 18 - tADC DEFINITION
Begin point: Rising edge of CK - CK#
defined by the end point of ODTLCNW
Begin point: Rising edge of CK - CK#
defined by the end point of ODTLCNW4 or ODTLCNW8
CK
VDDQ/2
CK#
t ADC
VRTT_NOM
DQ, DM
DQS, DQS#
End point:
Extrapolated
point at VRTT_NOM
t ADC
VRTT_NOM
TSW 21
TSW 11
VSW 2
TSW 22
TSW 12
VSW 1
VRTT_WR
End point: Extrapolated point at VRTT_WR
VSS Q
LOGIC Devices Incorporated
www.logicdevices.com
38
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
OUTPUT DRIVER IMPEDANCE
FIGURE 19 - OUTPUT DRIVER
34 OHM OUTPUT DRIVER IMPEDANCE
7KH:GULYHU05>@ LVWKHGHIDXOWGULYHU8QOHVVRWKHUZLVHVWDWHG
DOOWLPLQJVDQGVSHFLILFDWLRQVOLVWHGKHUHLQDSSO\WRWKH:GULYHURQO\,WV
LPSHGDQFH 5ON LV GHILQHG E\ WKH YDOXH RI WKH H[WHUQDO UHIHUHQFH UHVLVWRU
5=4DVIROORZV5ON 5=4ZLWKQRPLQDO5=4 :”DQGLVDFWXally 34.3:”7KH:RXWSXWGULYHULPSHGDQFHFKDUDFWHULVWLFVDUHOLVWHG
LQ7DEOH
Chip in drive mode
Output driver
VDDQ
IPU
To
other
circuitry
such as
RCV, . . .
RONPU
DQ
IOUT
RONPD
IPD
VOUT
VSSQ
TABLE 32: 34: DRIVER IMPEDANCE CHARACTERISTICS
MR1[5,1]
RON
RESISTOR
RON34PD
0, 1
34.3:
RON34PU
Pull-Up/Pull-Down mismatch (MMPUPD)
PACKAGE OUTLINE DIMENSIONS
VOUT
MIN
TYP
MAX
UNITS
NOTES
9DDQ
0.6
1.0
1.1
5=4
1
9DDQ
0.9
1.0
1.1
5=4
1
9DDQ
0.9
1.0
1.4
5=4
1
9DDQ
0.9
1.0
1.4
5=4
1
9DDQ
0.9
1.0
1.1
5=4
1
9DDQ
0.6
1.0
1.1
5=4
1
9DDQ
-10
QD
10
%
1, 2
127(6
1.
7ROHUDQFHOLPLWVDVVXPH5=4RI:”DQGDUHDSSOLFDEOHDIWHUSURSHU=4FDOLEUDWLRQKDVEHHQSHUIRUPHGDWDVWDEOHWHPSHUDWXUHDQGYROWDJH
9DD4 9DD9VV4 9VV5HIHUWRv2KPGULYHVHQVLWLYLW\wLIHLWKHUWKHWHPSHUDWXUHRUWKHYROWDJHFKDQJHVDIWHUFDOLEUDWLRQ
2.
0HDVXUHPHQWGHILQLWLRQIRUPLVPDWFKEHWZHHQSXOOXSDQGSXOOGRZQ00383'0HDUXUHERWK52138 and R213'DW[9DDQ:
MM38' =
R2138 - R213'
RONNOM
LOGIC Devices Incorporated
www.logicdevices.com
39
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
34 OHM OUTPUT DRIVER IMPEDANCE
34 OHM DRIVER
7KH:GULYHUuVFXUUHQWUDQJHKDVEHHQFDOFXODWHGDQGVXPPDUL]HGLQ7DEOHIRU9DD 97DEOHIRU9DD 9DQG7DEOHIRU9DD 97KH
LQGLYLGXDOSXOOXSDQGSXOOGRZQUHVLVWRUV5213'DQG52138DUHGHILQHGDVIROORZVZLWKWKH,PSHGDQFH&DOFXODWLRQVOLVWHGLQ7DEOH
xRON3' 9287>,[email protected]
xRON38 9DD49287>,[email protected]'LVWXUQHGRII
TABLE 33: 34: DRIVER PULL-UP AND PULL-DOWN IMPEDANCE
CALCULATIONS
PACKAGE
OUTLINE DIMENSIONS
MR1[5,1]
RON
RON
MIN
RZQ = 240:±1%
RZQ = (240:±1%)/7
RESISTOR
RON34PD
0, 1
34.3:
RON34PU
TYP
MAX
UNITS
240
242.4
:
33.9
34.3
34.6
:
VOUT
MIN
TYP
MAX
9DDQ
2.04
34.3
38.1
UNITS
:
9DDQ
30.5
34.3
38.1
:
9DDQ
30.5
34.3
48.5
:
9DDQ
30.5
34.3
48.5
:
9DDQ
30.5
34.3
38.1
:
9DDQ
20.4
34.3
38.1
:
TABLE 34: 34: DRIVER IOH/IOL CHARACTERISTICS: VDD = VPDD
Q = 1.5V
ACKAGE
OUTLINE DIMENSIONS
MR1[5,1]
RON
RESISTOR
RON34PD
0, 1
34.3:
RON34PU
VOUT
MIN
TYP
MAX
UNITS
IOL#[9DDQ
8.8
P$
IOL#[9DDQ
24.6
21.9
P$
IOL#[9DDQ
39.3
35
24.8
P$
IOL#[9DDQ
39.3
35
24.8
P$
IOL#[9DDQ
24.6
21.9
P$
IOL#[9DDQ
8.8
P$
TABLE 35: 34: DRIVER IOH/IOL CHARACTERISTICS: VDD=VDD
Q=1.575V
PACKAGE
OUTLINE DIMENSIONS
MR1[5,1]
RON
RESISTOR
RON34PD
0, 1
34.3:
RON34PU
LOGIC Devices Incorporated
www.logicdevices.com
VOUT
MIN
TYP
IOL#[9DDQ
15.5
9.2
8.3
P$
IOL#[9DDQ
25.8
23
P$
IOL#[9DDQ
41.2
36.8
26
P$
IOL#[9DDQ
41.2
36.8
26
P$
IOL#[9DDQ
25.8
23
P$
IOL#[9DDQ
15.5
9.2
8.3
P$
40
MAX
UNITS
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
34 OHM OUTPUT DRIVER IMPEDANCE
TABLE 36: 34: DRIVER IOH/IOL CHARACTERISTICS: VDD=VDD
Q=1.425V
PACKAGE
OUTLINE DIMENSIONS
MR1[5,1]
RON
RESISTOR
RON34PD
0, 1
34.3:
RON34PU
VOUT
MIN
TYP
MAX
UNITS
IOL#[9DDQ
14
8.3
P$
IOL#[9DDQ
23.3
20.8
P$
IOL#[9DDQ
33.3
23.5
P$
IOL#[9DDQ
33.3
23.5
P$
IOL#[9DDQ
23.3
20.8
P$
IOL#[9DDQ
14
8.3
P$
34: OUTPUT DRIVER SENSITIVITY
,IHLWKHUWKHWHPSHUDWXUHRUYROWDJHFKDQJHVDIWHU=4FDOLEUDWLRQWKHWROHUDQFHOLPLWVOLVWHGLQ7DEOHFDQEHH[SHFWHGWRZLGHQDFFRUGLQJWR7DEOHDQG
TABLE 37: 34: OUTPUT DRIVER SENSITIVITY DEFINITION
Symbol
MIN
MAX
UNITS
RON @ 0.8 x VDDQ
0.9 - dRONG7+[>'[email protected]+[>'[email protected]
1.1 - dRONG7+[>'[email protected]+[>'[email protected]
5=4
RON @ 0.5 x VDDQ
0.9 - dRONG70[>'[email protected][>'[email protected]
1.1 - dRONG70[>'[email protected][>'[email protected]
5=4
RON @ 0.2 x VDDQ
0.9 - dRONG7/[>'[email protected]/[>'[email protected]
1.1 - dRONG7/[>'[email protected]/[>'[email protected]
5=4
TABLE 38: 34: OUTPUT DRIVER VOLTAGE AND TEMPERATURE SENSITIVITY
Change
MIN
MAX
UNITS
dRONdTM
0
1.5
“&
dRONdVM
0
0.13
P9
dRONdTL
0
1.5
“&
dRONdVL
0
0.13
P9
dRONdTH
0
1.5
“&
dRONdVH
0
0.13
P9
LOGIC Devices Incorporated
www.logicdevices.com
41
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ALTERNATIVE 40 OHM DRIVER
TABLE 39 - 40: DRIVER IMPEDANCE CHARACTERISTICS
MR1[5,1]
RON
RESISTOR
RON40PD
0, 1
40.0:
RON40PU
Pull-Up/Pull-Down mismatch (MMPUPD)
PACKAGE OUTLINE DIMENSIONS
VOUT
MIN
TYP
MAX
UNITS
NOTES
9DDQ
0.6
1.0
1.1
5=4
1
9DDQ
0.9
1.0
1.1
5=4
1
9DDQ
0.9
1.0
1.4
5=4
1
9DDQ
0.9
1.0
1.4
5=4
1
9DDQ
0.9
1.0
1.1
5=4
1
9DDQ
0.6
1.0
1.1
5=4
1
9DDQ
-10
QD
10
%
1, 2
127(6
1.
7ROHUDQFHOLPLWVDVVXPH5=4RI:”DQGDUHDSSOLFDEOHDIWHUSURSHU=4FDOLEUDWLRQKDVEHHQSHUIRUPHGDWDVWDEOHWHPSHUDWXUHDQGYROWDJH
9DD4 9DD9VV4 9VV5HIHUWRv2KPGULYHVHQVLWLYLW\wLIHLWKHUWKHWHPSHUDWXUHRUWKHYROWDJHFKDQJHVDIWHUFDOLEUDWLRQ
2.
0HDVXUHPHQWGHILQLWLRQIRUPLVPDWFKEHWZHHQSXOOXSDQGSXOOGRZQ00383'0HDUXUHERWK5ON38DQG5ON3'DW[9DDQ:
MM383' = R2138 - R213'
[
RONNOM
40: OUTPUT DRIVER SENSITIVITY
,IHLWKHUWKHWHPSHUDWXUHRUYROWDJHFKDQJHVDIWHU,2FDOLEUDWLRQWKHWROHUDQFHOLPLWVOLVWHGLQ7DEOHFDQEHH[SHFWHGWRZLGHQDFFRUGLQJWR7DEOHDQG
TABLE 40: 40: OUTPUT DRIVER SENSITIVITY DEFINITION
Symbol
MIN
MAX
UNITS
RON @ 0.8 x VDDQ
0.9 - dRONG7+[>'[email protected]+[>'[email protected]
1.1 - dRONG7+[>'[email protected]+[>'[email protected]
5=4
RON @ 0.5 x VDDQ
0.9 - dRONG70[>'[email protected][>'[email protected]
1.1 - dRONG70[>'[email protected][>'[email protected]
5=4
RON @ 0.2 x VDDQ
0.9 - dRONG7/[>'[email protected]/[>'[email protected]
1.1 - dRONG7/[>'[email protected]/[>'[email protected]
5=4
LOGIC Devices Incorporated
www.logicdevices.com
42
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ALTERNATIVE 40 OHM DRIVER
TABLE 41: 40: OUTPUT DRIVER VOLTAGE AND TEMPERATURE SENSITIVITY
Change
MIN
MAX
dRONdTM
0
1.5
UNITS
“&
dRONdVM
0
0.15
P9
dRONdTL
0
1.5
“&
dRONdVL
0
0.15
P9
dRONdTH
0
1.5
“&
dRONdVH
0
0.15
P9
OUTPUT CHARACTERISTICS AND OPERATING CONDITIONS
7KH6'5$0XVHVERWKVLQJOHHQGHGDQGGLIIHUHQWLDORXWSXWGULYHUV7KHVLQJOHHQGHGRXWSXWGULYHULVVXPPDUL]HGLQ7DEOHZKLOHWKHGLIIHUHQWLDORXWSXW
GULYHULVVXPPDUL]HGLQ7DEOH
TABLE 42: SINGLE-ENDED OUTPUT DRIVER CHARACTERISTICS PACKAGE OUTLINE DIMENSIONS
Parameter/Condition
Output leakage current:'4DUHGLVDEOHG
Symbol
MIN
UNITS
NOTES
I2=
-5
MAX
5
X$
1
6546(
2.5
6
9QV
1, 2, 3, 4
9d9287d9DD42'7LVGLVDEOHG2'7LV+,*+
Output slew rate:6LQJOHHQGHGIRUULVLQJDQGIDOOLQJ
HGJHVPHDVXUHEHWZHHQ9OL$& 95()[9DDQ
DQG92+$& 95()[9DDQ
Single-ended DC high-level output voltage
92+'&
[9DDQ
9
1, 2, 5
Single-ended DC mid-point level output voltage
9OM'&
[9DDQ
9
1, 2, 5
Single-ended DC low-point level output voltage
9OL'&
[9DDQ
9
1, 2, 5
Single-ended DC high-point level output voltage
92+$&
977[9DDQ
9
1, 2, 3, 6
Single-ended DC low-point level output voltage
9OL$&
977[9DDQ
9
1, 2, 3, 6
Delta RON between pull-up and pull-down for DQ/DQS
MM383'
%
Test load for AC timing and output slew rates
-10
10
3
2XWSXWWR9TT9DD4YLD:UHVLVWRU
127(6
1.
5=4RI:”ZLWK5=4HQDEOHGGHIDXOW:GULYHUDQGLVDSSOL-
5.
6HH7DEOHRQSDJH,9FXUYHOLQHDULW\'RQRWXVH$&7HVWORDG
FDEOH DIWHU SURSHU =4 FDOLEUDWLRQ KDV EHHQ SHUIRUPHG DW D VWDEOH WHP-
6.
6HH7DEOHRQSDJHIRURXWSXWVOHZUDWH
SHUDWXUHDQGYROWDJH9DD4 9DD9VV4 9VV
6HH7DEOHRQSDJHIRUDGGLWLRQDOLQIRUPDWLRQ
2.
9TT 9DD4
8.
6HH )LJXUH RQ SDJH IRU DQ H[DPSOH RI D VLQJOHHQGHG RXWSXW
3.
6HH)LJXUHRQSDJHIRUWKHWHVWORDGFRQILJXUDWLRQ
4.
VLJQDO
7KH9QVPD[LPXPLVDSSOLFDEOHIRUDVLQJOH'4VLJQDOZKHQLWLVVZLWFKLQJIURPHLWKHU+,*+WR/2:RU/2:WR+,*+ZKLOHWKHUHPDLQLQJ'4
VLJQDOVLQWKHVDPHE\WHODQHDUHFRPELQDWLRQVWKHPD[LPXPOLPLWRI9
QVPD[LPXPLVUHGXFHGWR9QV
LOGIC Devices Incorporated
www.logicdevices.com
43
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 43: DIFFERENTIAL OUTPUT DRIVER CHARACTERISTICS PACKAGE OUTLINE DIMENSIONS
Parameter/Condition
Output leakage current:'4DUHGLVDEOHG
Symbol
MIN
MAX
UNITS
NOTES
I2=
-5
5
X$
1
SRQDIFF
5
12
9QV
1
92;$&
95()-150
95()
P9
1, 2, 3
9d9287d9DD42'7LV+,*+
Output slew rate:'LIIHUHQWLDOIRUULVLQJDQGIDOOLQJHGJHV
PHDVXUHEHWZHHQ9OL',))$& [9DD4DQG92+
$& [9DDQ
Output differential cross-point voltage
Differential high-level output voltage
92+',))$&
[9DDQ
9
1, 4
Differential low-level output voltage
9OL',))$&
[9DDQ
9
1, 4
%
1, 5
Delta RON between pull-up and pull-down for DQ/DQS
MM383'
-10
10
2XWSXWWR9TT9DD4YLD:UHVLVWRU
Test load for AC timing and output slew rates
3
127(6
1.
5=4RI:”ZLWK5=4HQDEOHGGHIDXOW:GULYHUDQGLVDSSOL-
4.
6HH7DEOHRQSDJHIRUWKHRXWSXWVOHZUDWH
FDEOH DIWHU SURSHU =4 FDOLEUDWLRQ KDV EHHQ SHUIRUPHG DW D VWDEOH WHP-
5.
6HH7DEOHRQSDJHIRUDGGLWLRQDOLQIRUPDWLRQ
SHUDWXUHDQGYROWDJH9DD4 9DD9VV4 9VV
6.
6HH)LJXUHRQSDJHIRUDQH[DPSOHRIDGLIIHUHQWLDORXWSXWVLJQDO
2.
95() 9DD4
3.
6HH)LJXUHRQSDJHIRUWKHWHVWORDGFRQILJXUDWLRQ
FIGURE 20 - DQ OUTPUT SIGNAL
MAX output
VOH(AC)
VOL(AC)
MIN output
LOGIC Devices Incorporated
www.logicdevices.com
44
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
OUTPUT CHARACTERISTICS AND OPERATING CONDITIONS
FIGURE 21 - DIFFERENTIAL OUTPUT SIGNAL
MAX output
VOH(DIFF)
X
VOX(AC) MAX
X
X
VOX(AC) MIN
X
VOL(DIFF)
MIN output
REFERENCE OUTPUT LOAD
)LJXUHUHSUHVHQWVWKHHIIHFWLYHUHIHUHQFHORDGRI:XVHGLQGHILQLQJWKHUHOHYDQWGHYLFH$&WLPLQJSDUDPHWHUVH[FHSW2'7UHIHUHQFHWLPLQJDVZHOODVWKH
RXWSXWVOHZUDWHPHDVXUHPHQWV,WLVQRWLQWHQGHGWREHDSUHFLVHUHSUHVHQWDWLRQRIDSDUWLFXODUV\VWHPHQYLURQPHQWRUDGHSLFWLRQRIWKHDFWXDOORDGSUHVHQWHG
E\DQ\VSHFLILF,QGXVWU\WHVWV\VWHPDSSDUDWXV6\VWHPGHVLJQHUVVKRXOGXVH,%,6RURWKHUVLPXODWLRQWRROVWRFRUUHODWHWKHWLPLQJUHIHUHQFHORDGSUHVHQWHGRU
H[KLELWHGRQWKHV\VWHPRUV\VWHPHQYLURQPHQW
FIGURE 22 - REFERENCE OUTPUT LOAD FOR AC TIMING AND OUTPUT SLEW RATE
DUT
VREF
DQ
DQS
DQS#
VDDQ/2
RTT = 25Ω
VTT = VDDQ/2
Timing Reference Point
ZQ
RZQ = 240Ω
VSS
LOGIC Devices Incorporated
www.logicdevices.com
45
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
SLEW RATE DEFINITIONS FOR SINGLE-ENDED OUTPUT SIGNALS
7KHVLQJOHHQGHGRXWSXWGULYHULVVXPPDUL]HGLQ7DEOH:LWKWKHUHIHUHQFHORDGIRUWLPLQJPHDVXUHPHQWVWKHRXWSXWVOHZUDWHIRUIDOOLQJDQGULVLQJHGJHV
LVGHILQHGDQGPHDVXUHGEHWZHHQ9OL$&DQG92+$&IRUVLQJOHHQGHGVLJQDOVDVLQGLFDWHGLQ7DEOHDQG)LJXUH
TABLE 44: SINGLE-ENDED OUTPUT SLEW RATE
Measured
Output Slew Rate (Linear Signals)
Output
PACKAGE OUTLINE DIMENSIONS
Edge
From
To
5LVLQJ
9OL$&
92+$&
Falling
92+$&
9OL$&
Calculation
92+$&9OL $&
'756(
DQ
92+$&9OL$&
'7)6(
FIGURE 23 - NOMINAL SLEW RATE DEFINITION FOR SINGLE-ENDED OUTPUT SIGNALS
ΔTRSE
VOH(AC)
VTT
VOL(AC)
ΔTFSE
LOGIC Devices Incorporated
www.logicdevices.com
46
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
SLEW RATE DEFINITIONS FOR DIFFERENTIAL OUTPUT SIGNALS
7KHGLIIHUHQWLDORXWSXWGULYHULVVXPPDUL]HGLQ7DEOH:LWKWKHUHIHUHQFHORDGIRUWLPLQJPHDVXUHPHQWVWKHRXWSXWVOHZUDWHIRUIDOOLQJDQGULVLQJHGJHVLV
GHILQHGDQGPHDVXUHGEHWZHHQ9OL$&DQG92+$&IRUGLIIHUHQWLDOVLJQDOVDVVKRZQLQ7DEOHDQG)LJXUH
TABLE 45: DIFFERENTIAL OUTPUT SLEW RATE DEFINITION
Measured
Output Slew Rate (Linear Signals)
Output
PACKAGE OUTLINE DIMENSIONS
Edge
From
To
5LVLQJ
9OL',))$&
92+',))$&
Falling
92+',))$&
9OL',))$&
Calculation
92+',))$&9OL ',))$&
'TRDIFF
DQS, DQS\
92+',))$&9OL',))$&
'TFDIFF
FIGURE 24 - NOMINAL DIFFERENTIAL OUTPUT SLEW RATE DEFINITION FOR DQS, DQS#
VOH(DIFF) AC
0
VOL(DIFF) AC
ΔTFDIFF
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 46: SPEED BINS
PACKAGE OUTLINE DIMENSIONS
''5''5''5''5''5
>&:/ @>&:/ @>&:/ @>&:/ @>&:/ @
Parameter
Symbol
MIN MAX MIN MAX MIN MAX
MIN
MAX MIN MAX UNITS NOTES
t5&'
15
-
15
-
15
-
15
-
15
-
QV
35(&+$5*(FRPPDQGSHULRG
t53
15
-
15
-
15
-
15
-
15
-
QV
$&7,9$7(WR$&7,9$7(RU5()5(6+FRPPDQGSHULRG
t5&
52.5
-
52.5
$&7,9$7(WRLQWHUQDO5($'RU:5,7(GHOD\WLPH
$&7,9$7(WR35(&+$5*(FRPPDQGSHULRG
&/ &/ &/ &/ t5$6
&:/ t&.$9*
&:/ t&.$9*
PV 3
3.3
3
-
51
-
51
-
51
-
QV
PV
36
PV
36
PV
36
PV
QV
1
3.3
3
3.3
3
3.3
3
3.3
QV
2
QV
3
QV
3
QV
2
&:/ t&.$9*
&:/ t&.$9*
&:/ t&.$9*
QV
3
&:/ t&.$9*
QV
3
&:/ t&.$9*
&:/ t&.$9*
&:/ 2.5
3.3
2.5
3.3
2.5
3.3
2.5
3.3
2.5
3.3
QV
3
QV
2,3
t&.$9*
QV
3
&:/ t&.$9*
QV
3
&:/ t&.$9*
&:/ t&.$9*
1.5
5,6
6XSSRUWHG&/6HWWLQJV
5, 6, 8
5, 6, 8, 10
6XSSRUWHG&:/6HWWLQJV
1.5
5, 6, 8, 10
QV
3
1.5
QV
2,3
5, 6, 8, 10
&.
&.
127(6
1.
t5(),GHSHQGVRQt23(5
2.
7KH &/ DQG &:/ VHWWLQJ UHVXOW LQ t&. UHTXLUHPHQWV :KHQ PDNLQJ D
VHOHFWLRQRI t&.ERWK&/DQG&:/UHTXLUHPHQWVHWWLQJVQHHGWREHIXO-
3.
5HVHUYHGILOOHGEORFNVVHWWLQJVDUHQRWDOORZHG
ILOOHG
LOGIC Devices Incorporated
www.logicdevices.com
48
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
49
Cumulave error across
Cycle-to-Cycle JITTER
Clock absolute LOW pulse width
Clock absolute HIGH pusle width
3 Cycles
4 Cycles
5 Cycles
6 Cycles
7 Cycles
8 Cycles
9 Cycles
10 Cycles
11 Cycles
12 Cycles
2 Cycles
n = 13, 14 … 49, 50 Cycles
DLL LOCKED
DLL LOCKING
Parameter
TC = 0˚C to <85˚C
TC = 85˚C to 105˚C
TC = >105˚C to ≤125˚C
Clock period average: DLL enable mode
HIGH pulse width average
LOW pulse width average
DLL LOCKED
Clock period JITTER
DLL LOCKING
Clock absolute period
Clock period average: DLL
disable mode
t
t
CK (AVG)
CKDLL_DIS
ERR3PERR
t
ERRnPER
ERR4PERR
t
ERR5PERR
t
ERR6PERR
t
ERR7PERR
t
ERR8PERR
t
ERR9PERR
t
ERR10PERR
t
ERR11PERR
t
ERR12PERR
t
t
JITCC
t
JITCC, LCK
t
ERR2PERR
t
CL (ABS)
CH (ABS)
t
t
CH (AVG)
t
CL (AVG)
t
JITPER
t
JITPER, LCK
t
CLK (ABS)
t
Symbol
-175
-194
-209
-222
-232
-241
-249
-257
-263
-269
-147
0.43
0.43
0.47
0.47
-100
-90
200
180
175
194
209
222
232
241
249
257
263
269
147
-
-
0.53
0.53
100
90
-25 (DDR3-800)
[CWL=2.5; 6-6-6]
MIN
MAX
8
7800
8
3900
8
2900
0.53
0.53
90
80
0.47
0.47
-80
-70
0.53
0.53
80
70
0.47
0.47
-70
-60
See SPEED BIN TABLE (#49) for tCK range allowed
0.53
0.53
70
60
-157
-175
-188
-200
-209
-217
-224
-231
-237
-242
-132
0.43
0.43
132
-
0.43
0.43
160
140
-
0.43
0.43
140
120
-103
-118
118
-122
157
-140
140
-136
175
-155
155
-147
188
-168
168
-155
200
-177
177
-163
209
-186
186
-169
217
-193
193
-175
224
-200
200
-180
231
-205
205
-184
237
-210
210
-188
242
-215
215
tERRnPER MIN = (1+0.68ln[n]) x tJITPER MIN
tERRnPER MAX = (1+0.68ln[n]) x tJITPER MAX
180
160
-
122
136
147
155
163
169
175
180
184
188
103
-
-
MIN=tCK (AVG) MIN+tJITPER MIN; MAX=tCK (AVG)MAX+tJITPER MAX
0.47
0.47
-90
-80
-105
-117
-126
-133
-139
-145
-150
-154
-158
-161
-88
0.43
0.43
0.47
0.47
-60
-50
120
100
105
117
126
133
139
145
150
154
158
161
88
-
-
0.53
0.53
60
50
-19 (DDR3-1066)
-15 (DDR3-1333)
-12 (DDR3-1600)
-11 (DDR3-1866)
[CWL=1.875; 8-8-8] [CWL=1.5; 10-10-10] [CWL=1.25; 11-11-11] [CWL=1.07; 13-13-13]
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
8
7800
8
7800
8
7800
8
7800
8
3900
8
3900
8
3900
8
3900
8
2900
8
2900
8
2900
8
2900
ps
ps
ps
ps
ps
ps
ps
ps
ps
ps
ps
ps
ps
ps
tCK (AVG)
tCK (AVG)
ns
CK
CK
ps
ps
ps
ns
Units
17
17
17
17
17
17
17
17
17
17
17
16
16
17
15
14
10,11
12
12
13
13
Notes
9,42
9,42
9,42
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 47 (SHEET 1 OF 6) - ELECTRICAL CHARACTERISTICS AND AC OPERATING CONDITIONS
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
50
DQS, DQS\ DIFFERENTIAL READ postamble
DQS, DQS\ DIFFERENTIAL Output HIGH me
DQS, DQS\ DIFFERENTIAL Output LOW me
DQS, DQS\ LOW-Z me (RL-1)
DQS, DQS\ HIGH-Z me (RL+BL/2)
DQS, DQS\ DIFFERENTIAL READ preamble
DQS, DQS\ RISING to/from RISING CK, CK\ when DLL is disabled
DQS, DQS\ RISING to/from RISING CK, CK\
DQS,DQS\ RISING to CK, CK\ RISING
DQS, DQS\ DIFFERENTIAL Input Low pulse width
DQS, DQS\ DIFFERENTIAL Input HIGH pulse width
DQS, DQS\ FALLING Setup to CK, CK\ RISING
DQS, DQS\ FALLING Hold from CK, CK\ RISING
DQS, DQS\ DIFFERENTIAL WRITE preamble
DQS, DQS\ DIFFERENTIAL WRITE postamble
QH
t
RPST
DQSCK
t
DQSK
DLL_DIS
t
QSH
t
QSL
t
LZ (DQS)
t
HZ (DQS)
t
RPRE
t
DQSS
DQSL
t
DQSH
t
DSS
t
DSH
t
WPRE
t
WPST
t
t
HZ (DQ)
t
t
DQSQ
DIPW
LZ (DQ)
t
t
DH AC100
DS AC150
DS AC175
DQ HIGH-A me from CK, CK\
t
t
t
t
Base (specificaon)
VREF @ 1V/ns
Base (specificaon)
VREF @ 1V/ns
Base (specificaon)
VREF @ 1V/ns
Symbol
DQ LOW-Z me from CK, CK\
DQ Output HOLD me from DQS, DQS\
DQS, DQS\ to DQ SKEW, per access
Data HOLD me from DQS,
DQS\
Minimum Data Pulse Width
Data SETUP me to DQS, DQS\
Data SETUP me to DQS, DQS\
Parameter
400
-600
0.38
0.3
0.38
0.38
-800
0.9
1
Note 27
400
400
Note 24
10
0.3
0.38
0.38
-600
0.9
1
400
DQ Strobe Input Timing
-0.25
0.25
-0.25
0.45
0.55
0.45
0.45
0.55
0.45
0.2
0.2
0.2
0.2
0.9
0.9
0.3
0.3
DQ Strobe Output Timing
-400
400
-300
-
-800
0.38
Note 27
300
300
Note 24
10
300
0.25
0.55
0.55
-
300
300
-
0.3
0.4
0.4
-500
0.9
1
-255
-0.25
0.45
0.45
0.2
0.2
0.9
0.3
-
-500
0.38
Note 27
250
250
Note 24
10
255
0.25
0.55
0.55
-
250
250
-
225
225
Note 24
0.4
0.4
-450
0.9
Note 27
10
0.3
225
1
0.27
0.55
0.55
-
225
225
-
-225
-0.27
0.45
0.45
0.18
0.18
0.9
0.3
-
-450
0.38
0.3
0.4
0.4
-390
0.9
1
-195
-0.27
0.45
0.45
0.18
0.18
0.9
0.3
-
-390
0.38
Note 27
195
195
Note 24
10
195
0.27
0.55
0.55
-
190
190
-
-12 (DDR3-1600)
-11 (DDR3-1866)
-25 (DDR3-800)
-19 (DDR3-1066)
-15 (DDR3-1333)
[CWL=1.875; 8-8-8] [CWL=1.5; 10-10-10] [CWL=1.25; 11-11-11] [CWL=1.07; 13-13-13]
[CWL=2.5; 6-6-6]
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
DQ Input Timing
65
75
25
200
250
200
10
150
125
75
30
160
275
275
250
180
45
100
150
100
65
145
200
250
200
165
360
535
600
490
400
DQ Output Timing
85
100
200
150
125
CK
CK
CK
ps
ps
CK
ns
ps
CK
CK
CK
CK
CK
CK
CK
ps
ps
tCK (AVG)
ps
ps
ps
ps
ps
ps
ps
ps
Units
23,27
21
21
22,23
22,23
23,24
26
23
25
25
25
22,23
22,23
21
18,19
19,20
18,19
19,20
18,19
19,20
41
Notes
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 47 (SHEET 2 OF 6) - ELECTRICAL CHARACTERISTICS AND AC OPERATING CONDITIONS
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
51
2KB page size
1KB page size
RRD
MULTIPURPOSE REGISTER READ burst end to mode register set for
mulpurpose register exit
t
MPRR
MOD
MRD
t
MODE REGISTER SET command cycle me
MODE REGISTER SET command update delay
DAL
RTP
t
CCD
t
t
-
-
30
40
MIN=greater of 4CK or 7.5ns
MIN = 15ns; MAX = n/a
30
45
MIN = 1CK; MAX = n/a
MIN = 4CK; MAX = n/a
MIN = greater of 12CK or 15ns; MAX = n/a
MIN = WR + tRP/tCK (AVG); MAX = n/a
MIN = greater of 4CK or 7.5ns; MAX = n/a
37.5
50
MIN = greater of 4CK or 7.5ns; MAX = n/a
MIN = 4CK; MAX = n/a
-
MIN=greater of 4CK or 10ns
WTR
WR
40
50
-
512
512
45
65
220
240
170
190
320
340
120
140
220
240
560
620
See "Speed Bin Table (#49) for tRCD
See "Speed Bin Table (#49) for tRP
See "Speed Bin Table (#49) for tRAS
See "Speed Bin Table (#49) for tRC
MIN=greater of 4CK MIN=greater of 4CK MIN=greater of 4CK MIN=greater of 4CK
or 6ns
or 10ns
or 7.5ns
or 6ns
512
125
300
275
425
200
300
780
-
MIN=greater of 4CK
or 5ns
MIN=greater of 4CK
or 6ns
25
35
-
512
65
200
150
275
100
200
535
-12 (DDR3-1600)
-11 (DDR3-1866)
-19 (DDR3-1066)
-15 (DDR3-1333)
[CWL=1.875; 8-8-8] [CWL=1.5; 10-10-10] [CWL=1.25; 11-11-11] [CWL=1.07; 13-13-13]
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
t
t
FAW
t
t
t
RCD
t
RP
t
RAS
t
RCD
t
Auto precharge WRITE recovery + PRECHARGE me
Delay from start of internal WRITE transacon to internal READ
command
READ-to-PRECHARE me
CAS\-to-CAS\ command delay
WRITE recovery me
Four ACTIVATE windows for 1KB page size
Four ACTIVATE windows for 2KB page size
ACTIVATE-to-ACTIVATE
minimum command period
DLL Locking me
Base (specificaon)
CTRL, CMD, ADDR setup to CK,
VREF @ 1V/ns
CK\
Base (specificaon)
CTRL, CMD, ADDR setup to CK,
VREF @ 1V/ns
CK\
Base (specificaon)
CTRL, CMD, ADDR hold to CK,
VREF @ 1V/ns
CK\
Minimum CTRL, CMD, ADDR pulse width
ACTIVATE to Internal READ or WRITE delay
PRECHARGE command period
ACTIVATE-to-PRECHARGE command period
ACTIVATE-to-ACTIVATE command period
Parameter
-25 (DDR3-800)
[CWL=2.5; 6-6-6]
Symbol
MIN
MAX
Command and Address Timing
t
512
DLLK
200
t
IS AC175
375
350
t
IS AC150
500
275
t
IH DC100
375
t
900
IPW
CK
CK
CK
CK
CK
CK
CK
CK
ns
ns
CK
CK
CK
ps
ps
ps
ps
ps
ps
ps
ns
ns
ns
ns
Units
31,34
31,32,33
31
31
31
31
28
29,30
20,30
29,30
20,30
29,30
20,30
41
31
31
31,32
31
Notes
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 47 (SHEET 3 OF 6) - ELECTRICAL CHARACTERISTICS AND AC OPERATING CONDITIONS
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
52
Valid clocks before SELF REFRESH exit, POWER-DOWN exit, or RESET
exit
Valid clocks aer SELF REFRESH entry or POWER-DOWN entry
MINIMUM CKE LOW pulse width for SELF REFRESH entry to SELF
REFRESH exit ming
EXIT SELF REFRESH TO commands requiring a locked DLL
Exit SELF REFRESH TO commands not requiring a locked DLL
Maximum REFRESH
period/interval
Maximum REFRESH period
TC ≤ 85˚C
TC >85˚C ≤ 105˚C
TC >105˚C ≤ 125˚C
TC ≤ 85˚C
TC >85˚C ≤ 105˚C
TC >105˚C ≤ 125˚C
REFRESH-to-ACTIVATE or REFRESH command period
RESET\ LOW to power supplies stable
RESET\ LOW to I/O and RTT HIGH-Z
Begin power supply ramp to power supplies stable
Exit RESET from CKE HIGH to a valid command
Normal operaon
POWER-UP and RESET operaon
ZQCS command: Short Calibraon Time
ZQCL command: Long
Calibraon me
Parameter
t
ZQINIT
t
XPR
t
t
XS
REFI
-
RFC
CKSRE
CKESR
XSDLL
t
t
CKSRX
t
t
RPS
IOZ
t
t
VDDPR
t
t
ZQOPER
t
ZQCS
t
Symbol
-
512
-
512
-
512
-
ms
ns
ms
CK
CK
CK
CK
MIN = greater of 5CK or 10ns; MAX = n/a
MIN = greater of 5CK or 10ns; MAX = n/a
MIN = CKE (MIN) + CK; MAX = n/a
t
MIN = DLLK (MIN); MAX = n/a
t
CK
CK
CK
CK
CK
ns
-
-
ms
ms
ms
μs
μs
μs
256
64
512
64 (1X)
32 (2X)
24
7.8
3.9
2.9
-
Units
MIN = 110; MAX = 9 x tREFI
MIN = greater of 5CK or tRFC + 10ns; MAX = n/a
SELF REFRESH Timing
REFRESH Timing
MIN = 0; MAX = 200
MIN = n/a; MAX = 200
MIN = n/a; MAX = 200
256
256
256
256
64
64
64
64
Inializaon and RESET Timing
MIN = greater of 5CK or tRFC + 10ns; MAX = n/a
512
-25 (DDR3-800)
-19 (DDR3-1066)
-15 (DDR3-1333)
-12 (DDR3-1600)
-11 (DDR3-1866)
[CWL=2.5; 6-6-6]
[CWL=1.875; 8-8-8] [CWL=1.5; 10-10-10] [CWL=1.25; 11-11-11] [CWL=1.07; 13-13-13]
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
Calibraon Timing
28
36
36
36
36
36
36
35
Notes
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 47 (SHEET 4 OF 6) - ELECTRICAL CHARACTERISTICS AND AC OPERATING CONDITIONS
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
53
XP
XPDLL
t
t
MIN = Greater of 10CK or 24ns; MAX = n/a
MIN = Greater of 3CK or 6.0ns; MAX = n/a
MIN = WL + 2 + WR + 1
CK
CK
CK
CK
CK
MIN = WL + 4 + WR + 1
CK
CK
CK
CK
CK
CK
MIN = WL + 4 + WR/ CK (AVG)
t
MIN = 2
MIN = 2
CK
MIN = WL + 2 + tWR/tCK (AVG)
t
MIN = RL + 4 + 1
MIN = tMOD (MIN)
MIN = 1
MIN = 1
MIN = 1
ANPD + XPDLL
t
CK
t
Greater of tANPD or tRFC - REFRESH command to CKE LOW me
CK
CK
CK
CK
MIN = 2
Greater of 3CK or
5ns
Units
WL - 1CK
Greater of 3CK or
Greater of 3CK or
5.625ns
5ns
MIN = 1; MAX = n/a
MIN = tCKE (MIN); MAX = 60ms
Greater of 3CK or
5.625ns
-19 (DDR3-1066)
-15 (DDR3-1333)
-12 (DDR3-1600)
-11 (DDR3-1866)
[CWL=1.875; 8-8-8] [CWL=1.5; 10-10-10] [CWL=1.25; 11-11-11] [CWL=1.07; 13-13-13]
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
MIN = Greater of 3CK or 7.5ns; MAX = n/a
WRAPDEN
POWER-DOWN Exit Timing
t
BC4MRS
WRPDEN
WRPDEN
RDPDEN
WRAPDEN
BC4MRS
t
t
BL8 (OTF, MRS) BC4OTF
BL8 (OTF, MRS) BC4OTF
t
DLL on, any valid command, or DLL off to commands not requiring DLL
locked
PRECHARGE POWER-DOWN with DLL off to command requiring DLL
locked
WRITE with AUTO PRECHARGE
command to POWER-DOWN
entry
WRITE Command to POWERDOWN entry
t
READ/READ with AUTO PRECHARGE commant to POWER-DOWN entry
REFPDEN
t
MRSPDEN
t
REFRESH command to POWER-DOWN entry
MRS command to POWER-DOWN entry
PRPDEN
ACTPDEN
t
t
PRECHARGE/PRECHARGE ALL command to POWER-DOWN entry
ACTIVATE command to POWER-DOWN entry
PDX
POWER-DOWN Entry MINIMUM Timing
POWER-DOWN exit period: ODT either synchronous or asynchronous
ANPD
PDE
t
POWER-DOWN entry period: ODT eher synchronous or asynchronous
Begin POWER-DOWN period prior to CKE registered HIGH
Command pass disable delay
POWER-DOWN entry to POWER-DOWN exit ming
CKE MIN pulse width
Parameter
-25 (DDR3-800)
[CWL=2.5; 6-6-6]
Symbol
MIN
MAX
POWER-DOWN Timing
Greater of 3CK or
t
CKE (MIN)
7.5ns
t
CPDED
t
PD
28
37
Notes
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 47 (SHEET 5 OF 6) - ELECTRICAL CHARACTERISTICS AND AC OPERATING CONDITIONS
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
54
First DQS, DQS\ RISING edge
DQS; DQS\ delay
WRITE Leveling SETUP from rising CK, CK\ crossing to rising DQS, DQS\
crossing
WRITE Leveling HOLD from rising DQS, DQS\ crossing to rising CK, CK\
crossing
WRITE Leveling output delay
WRITE Leveling output error
RTT_NOM-to=RTT_WR change skew
RTT_WR-to-RTT_NOM change skew - BC4
RTT_WR-to-RTT_NOM change skew - BC8
RTT dynamic change skew
ODT HIGH me without WRITE command or with WRITE command and
BC8
ODT HIGH me without WRITE command or with WRITE command and
BC4
Asynchronous RTT TURN-OFF delay (POWER-DOWN with DLL OFF)
Asynchronous RTT TURN-ON delay (POWER-DOWN with DLL OFF)
t
-300
0.3
250
0.7
MIN = 2; MAX = 8.5
MIN = 2; MAX = 8.5
-250
0.3
WLH
WLO
t
WLOE
t
t
WLS
0
0
325
325
40
25
t
WLMRD
WLDQSEN
t
0.3
ADC
t
9
2
-
-
0
0
245
245
0.7
0.3
WRITE Leveling Timing
40
25
9
2
-
-
-
0
0
195
195
40
25
9
2
-
-
-
WL - 2CK
4CK + ODTL OFF
6CK + ODTL OFF
0.3
0.7
MIN = 4; MAX = n/a
0.7
300
0.7
ODTH4
Dynamic ODT Timing
400
0.7
MIN = 6; MAX = n/a
-400
0.3
ODTH8
AOFPD
ODTLCNW
ODTLCNW4
ODTLCNW8
t
AONPD
t
t
AON
AOF
ODTL on
ODTL off
RTT synchronous TURN-ON delay
RTT synchronous TURN-OFF delay
RTT TURN-ON from ODTL ON reference
RTT TURN-OFF from ODTL OFF reference
t
Symbol
Parameter
0
0
165
165
40
25
0.3
-225
0.3
7.5
2
-
-
-
0.7
225
0.7
0
0
140
140
40
25
0.3
-195
0.3
7.5
2
-
-
-
0.7
195
0.7
-25 (DDR3-800)
-19 (DDR3-1066)
-15 (DDR3-1333)
-12 (DDR3-1600)
-11 (DDR3-1866)
[CWL=2.5; 6-6-6]
[CWL=1.875; 8-8-8] [CWL=1.5; 10-10-10] [CWL=1.25; 11-11-11] [CWL=1.07; 13-13-13]
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
ODT Timing
ns
ns
ps
ps
CK
CK
CK
CK
CK
CK
CK
CK
ns
ns
CK
CK
ps
CK
Units
39
40
38
38
40
23,38
39,40
Notes
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 47 (SHEET 6 OF 6) - ELECTRICAL CHARACTERISTICS AND AC OPERATING CONDITIONS
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
NOTES
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www.logicdevices.com
55
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
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LOGIC Devices Incorporated
www.logicdevices.com
56
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
COMMAND AND ADDRESS SETUP, HOLD, AND DERATING
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TABLE 48: COMMAND AND ADDRESS SETUP AND HOLD VALUES REFERENCED AT 1V/NS – AC/DC BASED
DDR3-800
DDR3-1066
DDR3-1333
DDR3-1600
DDR3-1866
UNITS
REFERENCE
tIS(base)
Symbol
600
600
600
600
-
SV
9,+$&9IL$&
tIS(base)
600
600
600
600
-
SV
9,+$&9IL$&
-
-
600
600
-
SV
9,+$&9IL$&
tIH(base)DC100
TABLE 49: DERATING VALUES FOR tIS/tIH – AC175/DC100-BASED
Shaded cells indicate slew-rate combinations not supported
'tIS, 'tIH Derating (ps) - AC/DC-Based, AC175 Threshold; VIH(AC) = VREF(DC) + 175mV, VIL(AC) = VREF(DC) - 175mV
CMD/ADDR
Slew Rate V/ns
CK, CK\ Differential Slew Rate
4.0V/ns
3.0V/ns
2.0V/ns
1.8V/ns
1.6V/ns
1.4V/ns
1.2V/ns
1.0V/ns
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
2.0
88
50
88
50
88
50
96
58
96
66
112
120
84
128
100
1.5
59
34
50
34
59
34
42
50
83
58
91
68
99
84
1.0
0
0
0
0
0
0
8
8
8
16
24
24
32
34
40
50
0.9
-2
-4
-2
-4
-2
-4
6
4
6
12
22
20
30
30
38
46
0.8
-6
-10
-6
-10
-6
-10
2
-2
2
6
18
14
26
24
34
40
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-16
-11
-16
-11
-16
-3
-8
-3
0
13
8
21
18
29
34
0.6
-26
-26
-26
-9
-18
-9
-10
-2
15
8
23
24
0.5
-35
-40
-35
-40
-35
-40
-32
-24
-11
-16
-2
-6
5
10
0.4
-62
-60
-62
-60
-62
-60
-54
-52
-54
-44
-38
-36
-30
-26
-22
-10
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 50: DERATING VALUES FOR tIS/tIH – AC150/DC100-BASED
Shaded cells indicate slew-rate combinations not supported
'tIS, 'tIH Derating (ps) - AC/DC-Based, AC150 Threshold; VIH(AC) = VREF(DC) + 150mV, VIL(AC) = VREF(DC) - 150mV
CMD/ADDR
Slew Rate V/ns
CK, CK\ Differential Slew Rate
4.0V/ns
3.0V/ns
2.0V/ns
1.8V/ns
1.6V/ns
1.4V/ns
1.2V/ns
1.0V/ns
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
'tIS
'tIH
2.0
50
50
50
83
58
91
66
99
84
115
100
1.5
50
34
50
34
50
34
58
42
66
50
58
82
68
90
84
1.0
0
0
0
0
0
0
8
8
16
16
24
24
32
34
40
50
0.9
0
-4
0
-4
0
-4
8
4
16
12
24
20
32
30
40
46
0.8
0
-10
0
-10
0
-10
8
-2
16
6
24
14
32
24
40
40
0
-16
0
-16
0
-16
8
-8
16
0
24
8
32
18
40
34
0.6
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-26
-1
-26
-1
-26
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15
-10
23
-2
31
8
39
24
0.5
-10
-40
-10
-40
-10
-40
-2
-32
6
-24
14
-16
22
-6
30
10
0.4
-25
-60
-25
-60
-25
-60
-52
-9
-44
-1
-36
-26
15
-10
TABLE 51: MINIMUM REQUIRED TIME tVAC ABOVE VIH(AC) FOR A VALID TRANSITION
Below VIL(AC)
tVAC
Slew Rate (V/ns)
at 175mV(ps)
tVAC
at 150mV(ps)
>2.0
2.0
1.5
50
1.0
38
163
0.9
34
162
0.8
29
161
22
159
0.6
13
155
0.5
0
150
0
150
LOGIC Devices Incorporated
www.logicdevices.com
58
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 25 - NOMINAL SLEW RATE AND tVAC FOR tIS (COMMAND AND ADDRESS – CLOCK)
t IS
t IH
t IS
t IH
CK
CK#
DQS#
DQS
VDDQ
t VAC
VIH(AC) MIN
VREF to AC
region
VIH(DC) MIN
Nominal
slew rate
VREF(DC)
Nominal
slew rate
VIL(DC) MAX
VREF to AC
region
VIL(DC) MAX
t VAC
VSS
∆TF
Setup slew rate
falling signal
∆TR
VREF(DC) - VIL(AC) MAX
Setup slew rate
risin g signal
=
∆TF
Notes:
LOGIC Devices Incorporated
VIH(AC) MIN - V REF(DC)
=
∆TR
1. Both the clock and the strobe are drawn on different time scales.
www.logicdevices.com
59
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 26 - NOMINAL SLEW RATE FOR tIH (COMMAND AND ADDRESS – CLOCK)
t IS
t IH
t IS
t IH
CK
CK#
DQS#
DQS
VDDQ
VIH(AC) MIN
VIH(DC) MIN
Nominal
slew rate
DC to V REF
region
VREF(DC)
Nominal
slew rate
DC to V REF
region
VIL(DC) MAX
VIL(AC) MAX
VSS
∆TF
∆TR
Hol d slew rate
=
rising signal
VREF(DC) - VIL(DC) MAX
Hol d slew rate
falling signal =
∆TR
Notes:
LOGIC Devices Incorporated
www.logicdevices.com
VIH(DC) MIN - V REF(DC)
∆TF
1. Both the clock and the strobe are drawn on different time scales.
60
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 27 - TANGENT LINE FOR tIS (COMMAND AND ADDRESS – CLOCK)
t IS
t IH
t IS
t IH
CK
CK#
DQS#
DQS
VDDQ
t VAC
Nominal
line
VIH(AC) MIN
VREF to AC
region
VIH(DC) MIN
Tangent
line
VREF(DC)
Tangent
line
VIL(DC) MAX
VREF to AC
region
VIL(AC) MAX
Nominal
line
t VAC
∆TR
VSS
Setup slew rate
rising signal =
∆TF
Notes:
LOGIC Devices Incorporated
Tangent line (V IH [ DC] MIN - VREF[ DC ])
∆TR
Tangent line (VREF [ DC] - V IL[ AC] MAX)
Setup slew rate
falling signal =
∆TF
1. Both the clock and the strobe are drawn on different time scales.
www.logicdevices.com
61
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 28 - TANGENT LINE FOR tIH (COMMAND AND ADDRESS – CLOCK)
t IS
t IH
t IS
t IH
CK
CK#
DQS #
DQS
VDDQ
VIH(AC) MIN
Nominal
line
VIH(DC) MIN
DC to V REF
region
Tangent
line
VREF(DC)
DC to V REF
region
Tangent
line
Nominal
line
VIL( DC) MAX
VIL( AC) MAX
VSS
∆TR
∆TR
Hol d slew rate
rising signal =
Tangent line (V REF [ DC] - V IL[ DC] MAX)
Hol d slew rate
falling signal =
Tangent line (V IH [ DC] MIN - VREF[ DC])
∆TR
∆TF
Notes:
LOGIC Devices Incorporated
1. Both the clock and the strobe are drawn on different time scales.
www.logicdevices.com
62
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
DATA SETUP, HOLD AND DERATING
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t'+QRPLQDOVOHZUDWHIRUDIDOOLQJVLJQDOLVGHILQHGDVWKHVOHZUDWHEHWZHHQWKHODVWFURVVLQJRI9,+'&0,1DQGWKHILUVWFURVVLQJRI95()'&,IWKHDFWXDO
VLJQDOLVDOZD\VODWHUWKDQWKHQRPLQDOVOHZUDWHOLQHEHWZHHQWKHVKDGHGv'&WR95()'&UHJLRQwXVHWKHQRPLQDOVOHZUDWHIRUGHUDWLQJYDOXHVHH)LJXUH
,IWKHDFWXDOVLJQDOLVHDUOLHUWKDQWKHQRPLQDOVOHZUDWHOLQHDQ\ZKHUHEHWZHHQWKHVKDGHGv'&WR95()'&UHJLRQwWKHVOHZUDWHRIDWDQJHQWOLQHWRWKH
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TABLE 52: DATA SETUP AND HOLD VALUES AT 1V/NS (DQSX, DQSX\ AT 2V/NS) - AC/DC BASED
DDR3-800
DDR3-1066
DDR3-1333
DDR3-1600
DDR3-1866
UNITS
REFERENCE
tDS(base)AC175
Symbol
25
-
-
-
SV
9,+$&9IL$&
tDS(base)AC175
150
100
-
-
-
SV
9,+$&9IL$&
tDS(base)DC150
-
-
30
10
10
SV
9,+$&9IL$&
tDS(base)DC150
-
-
65
45
45
SV
9,+$&9IL$&
TABLE 53: DERATING VALUE FOR tDS/tDH – AC175/DC100 - BASED
Shaded cells indicate slew-rate combinations not supported
ǻtDS, ǻtDH Derating (ps) – AC175/D100-Based
DQ
Slew Rate V/ns
DQS, DQS# Differential Slew Rate
4.0V/ns
3.0V/ns
2.0V/ns
1.8V/ns
2.0
88
50
88
50
88
50
1.5
59
34
59
34
59
34
42
1.0
0
0
0.9
0.8
1.4V/ns
1.2V/ns
1.0V/ns
0
0
0
0
8
8
16
16
-2
-4
-2
-4
6
4
14
12
22
20
-6
-10
2
-2
10
6
18
14
26
24
-3
-8
5
0
13
8
21
18
29
34
-1
-10
-2
15
8
23
24
-11
-16
-2
-6
5
10
-30
-26
-22
-10
0.6
0.5
0.4
LOGIC Devices Incorporated
1.6V/ns
'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH
www.logicdevices.com
63
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 54: DERATING VALUE FOR tDS/tDH – AC150/DC100 - BASED
Shaded cells indicate slew-rate combinations not supported
ǻtDS, ǻtDH Derating (ps) – AC150/DC100-Based
DQ Slew
Rate V/ns
DQS, DQS# Differential Slew Rate
4.0V/ns
3.0V/ns
2.0V/ns
1.8V/ns
1.6V/ns
1.4V/ns
1.2V/ns
1.0V/ns
'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH 'tDS 'tDH
2.0
50
50
50
1.5
50
34
50
34
50
34
58
42
1.0
0
0
0
0
0
0
8
8
16
16
0
-4
0
-4
8
4
16
12
24
20
0
-10
8
-2
16
6
24
14
32
24
8
-8
16
0
24
8
32
18
40
34
15
-10
23
-2
31
8
39
24
14
-16
22
-6
30
10
-26
15
-10
0.9
0.8
0.6
0.5
0.4
TABLE 55: REQUIRED TIME tVAC ABOVE VIH(AC) (BELOW VIL[AC]) FOR A VALID TRANSITION
tVAC
Slew Rate (V/ns)
at 175mV(ps) [MIN]
tVAC
at 150mV(ps) [MIN]
>2.0
2.0
1.5
50
1.0
38
163
0.9
34
162
0.8
29
161
22
159
0.6
13
155
0.5
0
150
0
150
LOGIC Devices Incorporated
www.logicdevices.com
64
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 29 - NOMINAL SLEW RATE AND tVAC FOR tDS (DQ – STROBE)
CK
CK#
DQS#
DQS
t DS
t DH
t DS
t DH
VDDQ
t VAC
VIH(AC) MIN
VREF to AC
region
VIH(DC) MIN
Nominal
slew rate
VREF(DC)
Nominal
slew rate
VIL(DC) MAX
VREF to AC
region
VIL(AC) MAX
t VAC
VSS
∆TF
Setup slew rate
=
rising signal
Notes:
LOGIC Devices Incorporated
∆TR
VREF(DC) - VIL(AC) MAX
∆TF
Setup slew rate
=
rising signal
VIH(AC) MIN - VREF (DC)
∆TR
1. Both the clock and the strobe are drawn on different time scales.
www.logicdevices.com
65
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 30 - NOMINAL SLEW RATE FOR tDH (DQ – STROBE)
CK
CK#
DQS#
DQS
t DS
t DH
t DS
t DH
VDDQ
VIH(AC) MIN
VIH(DC) MIN
Nominal
slew rate
DC to V REF
region
VREF(DC)
Nominal
slew rate
DC to V REF
region
VIL(DC) MAX
VIL(AC) MAX
VSS
∆TF
∆TR
Hold slew rate
=
rising signal
Notes:
LOGIC Devices Incorporated
VREF(DC) - VIL(DC) MAX
∆TR
Hold slew rate
=
falling signal
VIH(DC) MIN - V REF(DC)
∆TF
1. Both the clock and the strobe are drawn on different time scales.
www.logicdevices.com
66
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 31 - NOMINAL SLEW RATE AND tVAC FOR tDS (DQ – STROBE)
CK
CK#
DQS#
DQS
t DS
t DH
t DS
t DH
VDDQ
Nominal
line
t VAC
VIH(AC) MIN
VREF to AC
region
VIH(DC) MIN
Tangent
line
VREF(DC)
Tangent
line
VIL(DC) MAX
VREF to AC
region
VIL(AC) MAX
Nominal
line
t VAC
∆TR
VSS
Setup slew rate
rising signal
=
Tangent line (V IH[ AC ] MIN - V REF [ DC])
∆TR
∆TF
Setup slew rate
falling signal
=
Tangent line (V REF[ DC] - V IL[ AC] MAX)
∆TF
Notes:
LOGIC Devices Incorporated
1. Both the clock and the strobe are drawn on different time scales.
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 32 - NOMINAL SLEW RATE FOR tDH (DQ – STROBE)
CK
CK#
DQS#
DQS
t DS
t DH
t DS
t DH
VDDQ
VIH(AC) MIN
Nominal
line
VIH(DC) MIN
DC to VREF
region
Tangent
line
VREF(DC)
DC to VREF
region
Tangent
line
Nominal
line
VIL(DC) MAX
VIL(AC) MAX
VSS
∆TR
Notes:
LOGIC Devices Incorporated
∆TF
Tangent line (V REF[ DC] - V IL[ DC] MAX)
Hol d slew rate
falling signal
=
Hol d slew rate
falling signal
=
∆TR
Tangent line (V IH [ DC] MIN - VREF[ DC])
∆TF
1. Both the clock and the strobe are drawn on different time scales.
www.logicdevices.com
68
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
COMMANDS TRUTH TABLE
TABLE 56: TRUTH TABLE - COMMAND
PACKAGE OUTLINE DIMENSIONS
CKE
Function
Symbol
Prev
Cycle
Next
Cycle
CS\
RAS\
CAS\
WE\
BA[2:0]
An
A12
A10
A[11,0:0] Notes
Mode Register Set
MRS
+
+
L
L
L
L
%$
REFRESH
5()
+
+
L
L
L
+
9
9
9
9
9
SELF REFRESH entry
65(
+
L
L
L
L
+
9
9
9
9
9
6
SELF REFRESH exit
65;
L
+
+
L
9
+
9
+
9
+
9
9
9
9
9
35(
+
+
L
L
L
L
9%$
9
9
L
9
35($
+
+
L
L
L
L
9
9
9
+
9
$&7
+
+
L
L
L
+
%$
:5
+
+
L
+
+
L
%$
5)8
9
L
&$
8
%&27)
:56
+
+
L
+
+
L
%$
5)8
L
L
&$
8
BL8OTF
:56
+
+
L
+
+
L
%$
5)8
+
L
&$
8
BL8MRS
%&056
:5$3
+
+
L
+
+
L
%$
5)8
9
+
&$
8
%&27)
:5$36
+
+
L
+
+
L
%$
5)8
L
+
&$
8
BL8OTF
:5$36
+
+
L
+
+
L
%$
5)8
+
+
&$
8
BL8MRS
%&056
RD
+
+
L
+
+
+
%$
5)8
9
L
&$
8
%&27)
RDS4
+
+
L
+
+
+
%$
5)8
L
L
&$
8
BL8OTF
RDS8
+
+
L
+
+
+
%$
5)8
+
L
&$
8
Single-Bank PRECHARGE
PRECHARGE all banks
Bank ACTIVATE
BL8MRS
%&056
WRITE
WRITE with AUTO
PRECHARGE
READ
READ with AUTO
PRECHARGE
&$
5'$3
+
+
L
+
+
+
%$
5)8
9
+
&$
8
%&27)
5'$36
+
+
L
+
+
+
%$
5)8
L
+
&$
8
BL8OTF
BL8MRS
%&056
5'$36
+
+
L
+
+
+
%$
5)8
+
+
&$
8
NO OPERATION
123
+
+
L
+
+
+
9
9
9
9
9
9
Device DESELECTED
'(6
+
+
+
;
;
;
;
;
;
;
;
3'(
+
+
9
+
9
+
9
+
9
10
POWER-DOWN entry
+
9
+
9
9
9
9
9
9
6
9
9
9
9
9
6,11
12
3';
L
+
L
+
L
+
ZQ CALIBRATION LONG
=4&/
+
+
L
+
+
L
;
;
;
+
;
ZQ CALIBRATION SHORT
=4&6
+
+
L
+
+
L
;
;
;
L
;
POWER-DOWN exit
L
127(6
1.
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8.
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4.
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LOGIC Devices Incorporated
www.logicdevices.com
12.
69
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High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 57: TRUTH TABLE - CKE
CKE
Current State 3
(n-1)
(n)
Previous Cycle 4
Present Cycle 4
(RAS\, CAS\, WE\, CS\)
Command 5
Action 5
Notes
L
L
v'RQuW&DUHw
0DLQWDLQ32:(5'2:1
1,2
L
+
'(6RU123
32:(5'2:1H[LW
1,2
POWER-DOWN
SELF REFRESH
L
L
v'RQuW&DUHw
0DLQWDLQ6(/)5()5(6+
1,2
Bank(s) ACTIVE
+
+
'(6RU123
6(/)5()5(6+H[LW
1,2
READING
+
L
'(6RU123
$FWLYH32:(5'2:1HQWU\
1,2
WRITING
+
L
'(6RU123
32:(5'2:1HQWU\
1,2
PRECHARGING
+
L
'(6RU123
32:(5'2:1HQWU\
1,2
REFRESHING
+
L
'(6RU123
35(&+$5*(32:(5'2:1HQWU\
1,2
All Banks IDLE
+
L
'(6RU123
35(&+$5*(32:(5'2:1HQWU\
1,2,6
+
L
5()5(6+
6(/)5()5(6+
127(6
1.
$OOVWDWHVDQGVHTXHQFHVQRWVKRZQDUHLOOHJDORUUHVHUYHGXQOHVVH[SOLF-
4.
LWO\GHVFULEHGHOVHZKHUHLQWKLVGRFXPHQW
2.
VWDWHRI&.(DWWKHSUHYLRXVFORFNHGJH
t&.(0,1PHDQV&.(PXVWEHUHJLVWHUHGDWPXOWLSOHFRQVHFXWLYHSRVL-
5.
&200$1'LVWKHFRPPDQGUHJLVWHUHGDWWKHFORFNHGJHPXVWEHD
WLYHFORFNHGJHV&.(PXVWUHPDLQDWWKHYDOLGLQSXWOHYHOWKHHQWLUHWLPH
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LWWDNHVWRDFKLHYHWKHUHTXLUHGQXPEHURIUHJLVWUDWLRQFORFNV7KXVDIWHU
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n.
5()5(6+H[LWDQG32:(5'2:1H[LWSDUDPHWHUVDUHDOVRVDWLVILHG
NO OPERATION (NOP)
DESELECT (DES)
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ZQ CALIBRATION
ZQ Calibration LONG (ZQCL)
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7KH6'5$0LVDOORZHGDWLPLQJZLQGRZGHILQHGE\HLWKHU t=4,1,7RU t=423(5WRSHUIRUPWKHIXOOFDOLEUDWLRQDQGWUDQVIHURIYDOXHV:KHQ=4&/LVLVVXHG
GXULQJWKHLQLWLDOL]DWLRQVHTXHQFHWKHWLPLQJSDUDPHWHUW=4,1,7PXVWEHVDWLVILHG:KHQLQLWLDOL]DWLRQLVFRPSOHWHVXEVHTXHQW=4&/FRPPDQGVUHTXLUHWKH
WLPLQJSDUDPHWHUt=423(5WREHVDWLVILHG
ZQ Calibration SHORT (ZQCS)
7KH=4&6FRPPDQGLVXVHGWRSHUIRUPSHULRGLFFDOLEUDWLRQVWRDFFRXQWIRUVPDOOYROWDJHDQGWHPSHUDWXUHYDULDWLRQV7KHVKRUWHUWLPLQJZLQGRZLVSURYLGHG
WRSHUIRUPWKHUHGXFHGFDOLEUDWLRQDQGWUDQVIHURIYDOXHVDVGHILQHGE\WLPLQJSDUDPHWHUt=4&6$=4&6FRPPDQGFDQHIIHFWLYHO\FRUUHFWDPLQLPXPRI
RON and RTTLPSHGDQFHHUURUVZLWKLQFORFNF\FOHVDVVXPLQJWKHPD[LPXPVHQVLWLYLWLHVVSHFLILHGLQ7DEOHDQG7DEOH
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ACTIVATE
READ
7KH $&7,9$7( FRPPDQG LV XVHG WR RSHQ RU $&7,9$7( D URZ LQ D
SDUWLFXODU EDQN IRU D VXEVHTXHQW DFFHVV 7KH YDOXH RQ WKH %$ >@
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URZ 7KH DGGUHVV SURYLGHG RQ LQSXWV $>@ VHOHFWV WKH VWDUWLQJ FROXPQ
DGGUHVVGHSHQGLQJRQWKHEXUVWOHQJWKDQGEXUVWW\SHVHOHFWHGVHHWDEOH
7KHYDOXHRQLQSXW$GHWHUPLQHVZKHWKHURUQRWDXWRSUHFKDUJHLV
XVHG,IDXWRSUHFKDUJHLVVHOHFWHGWKHURZEHLQJDFFHVVHGZLOOEH35(&+$5*('DWWKHHQGRIWKH5($'EXUVW,I$87235(&+$5*(LVQRW
VHOHFWHGWKHURZZLOOUHPDLQRSHQIRUVXEVHTXHQWDFFHVVHV7KHYDOXHRQ
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RI5($'FRPPDQGVLVVKRZQLQ7DEOH
$35(&+$5*(FRPPDQGPXVWEHLVVXHGEHIRUHRSHQLQJDGLIIHUHQWURZ
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TABLE 58: READ COMMAND SUMMARY
CKE
Function
READ
READ with AUTO
PRECHARGE
Symbol
BL8MRS
%&056
RD
%&27)
RDS4
Prev
Cycle
Next
Cycle
CS\
RAS\
CAS\
WE\
+
L
+
BA[2:0]
L
+
%$
+
L
+
L
+
%$
+
An
A12
A10
A[11,0:0] Notes
5)8
9
L
&$
5)8
L
L
&$
BL8OTF
RDS8
+
L
L
+
%$
5)8
+
L
&$
BL8MRS
%&056
5'$3
+
L
+
L
+
%$
5)8
9
+
&$
+
L
+
%$
5)8
L
+
&$
+
L
+
%$
5)8
+
+
&$
%&27)
5'$36
+
L
BL8OTF
5'$36
+
L
WRITE
7KH:5,7(FRPPDQGLVXVHGWRLQLWLDWHDEXUVW:5,7(DFFHVVWRDQ$&7,9(URZ7KHYDOXHRQWKH%$>@LQSXWVVHOHFWVWKHEDQN7KHYDOXHRQLQSXW$
GHWHUPLQHVZKHWKHURUQRW$87235(&+$5*(LVXVHG7KHYDOXHRQLQSXW$LIHQDEOHGLQWKH02'(5(*,67(5>[email protected]:5,7(FRPPDQGLV
LVVXHGGHWHUPLQHVZKHWKHU%&FKRSRU%/LVXVHG7KH:5,7(FRPPDQGVXPPDU\LVVKRZQLQ7DEOH
TABLE 59: WRITE COMMAND SUMMARY
CKE
Function
Symbol
BL8MRS
%&056
WRITE
WRITE with AUTO
PRECHARGE
:5
Prev
Cycle
Next
Cycle
CS\
RAS\
CAS\
WE\
BA[2:0]
An
A12
A10
A[11,0:0] Notes
+
L
+
L
L
%$
5)8
9
L
&$
+
%&27)
:56
+
L
L
L
%$
5)8
L
L
&$
BL8OTF
:56
+
L
+
L
L
%$
5)8
+
L
&$
+
BL8MRS
%&056
:5$3
+
L
L
L
%$
5)8
9
+
&$
%&27)
:5$36
+
L
+
L
L
%$
5)8
L
+
&$
+
L
+
L
L
%$
5)8
+
+
&$
BL8OTF
LOGIC Devices Incorporated
:5$36
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
PRECHARGE
REFRESH
7KH35(&+$5*(FRPPDQGLVXVHGWR'($&7,9$7(WKHRSHQURZLQD
SDUWLFXODUEDQNRULQDOOEDQNV7KHEDQNVDUHDYDLODEOHIRUDVXEVHTXHQW
URZDFFHVVDWDVSHFLILHGWLPHt53DIWHUWKH35(&+$5*(FRPPDQGLV
LVVXHGH[FHSWLQWKHFDVHRIFRQFXUUHQW$87235(&+$5*($5($'RU
:5,7(FRPPDQGWRDGLIIHUHQWEDQNLVDOORZHGGXULQJFRQFXUUHQW$872
35(&+$5*(DVORQJDVLWGRHVQRWLQWHUUXSWWKHGDWDWUDQVIHULQWKHFXUUHQWEDQNDQGGRHVQRWYLRODWHDQ\RWKHUWLPLQJSDUDPHWHUV,QSXW$
GHWHUPLQHVZKHWKHURQHRUDOOEDQNVDUHSUHFKDUJHG,QWKHFDVHZKHUH
RQO\RQHEDQNLVUHFKDUJHG,QSXWV%$>@VHOHFWWKHEDQNRWKHUZLVH
%$>@DUHWUHDWHGDVv'RQuW&DUHw$IWHUDEDQNLV35(&+$5*('LWLV
LQWKHLGOHVWDWHDQGPXVWEHDFWLYDWHGSULRUWRDQ\5($'RU:5,7(FRPPDQGVEHLQJLVVXHGWRWKDWEDQN$35(&+$5*(FRPPDQGLVWUHDWHG
DVD123LIWKHUHLVQRRSHQURZLQWKDWEDQNLGOHVWDWHRULIWKHSUHYLRXVO\RSHQURZLVDOUHDG\LQWKHSURFHVVRISUHFKDUJLQJ+RZHYHUWKH
35(&+$5*(SHULRGLVGHWHUPLQHGE\WKHODVW35(&+$5*(FRPPDQG
LVVXHGWRWKHEDQN
5()5(6+LVXVHGGXULQJQRUPDORSHUDWLRQRIWKH6'5$0DQGLVDQDORJRXV
WR&$6?EHIRUH5$6?&%5UHIUHVKRU$8725()5(6+7KLVFRPPDQG
LVQRQSHUVLVWHQWVRLWPXVWEHLVVXHGHDFKWLPHD5()5(6+LVUHTXLUHG
7KH DGGUHVVLQJ LV JHQHUDWHG E\ WKH LQWHUQDO 5()5(6+ FRPPDQG 7KH
6'5$0UHTXLUHV5()5(6+F\FOHVDWDQDYHUDJHLQWHUYDORI˜VPD[LPXPZKHQ7$d“&RU˜V0$;ZKHQ7$d“&7KH5()5(6+SHULRG
EHJLQVZKHQWKH5()5(6+FRPPDQGLVUHJLVWHUHGDQGHQGV t5)&0,1
later.
7RDOORZIRULPSURYHGHIILFLHQF\LQVFKHGXOLQJDQGVZLWFKLQJEHWZHHQWDVNV
VRPHIOH[LELOLW\LQWKHDEVROXWH5()5(6+LQWHUYDOLVSURYLGHG$PD[LPXP
RIHLJKW5()5(6+FRPPDQGVFDQEHSRVWHGWRDQ\JLYHQ6'5$0PHDQLQJWKDWWKHPD[LPXPDEVROXWHLQWHUYDOEHWZHHQDQ\5()5(6+FRPPDQG
DQG WKH QH[W 5()5(6+ FRPPDQG LV QLQH WLPHV WKH PD[LPXP DYHUDJH
LQWHUYDO UHIUHVK UDWH 6(/) 5()5(6+ PD\ EH HQWHUHG ZLWK XS WR HLJKW
5()5(6+FRPPDQGVEHLQJSRVWHG$IWHUH[LWLQJ6(/)5()5(6+ZKHQ
HQWHUHGZLWKSRVWHG5()5(6+FRPPDQGVDGGLWLRQDOSRVWLQJRI5()5(6+
FRPPDQGV LV DOORZHG WR WKH H[WHQW WKH PD[LPXP QXPEHU RI FXPXODWLYH
SRVWHG5()5(6+FRPPDQGVERWKSUHDQGSRVW6(/)5()5(6+GRHV
QRWH[FHHGHLJKW5()5(6+FRPPDQGV
FIGURE 33 - REFRESH MODE
T0
T2
T1
T3
T4
Ta0
Ta1
Tb0
Tb1
Valid 1
Valid 1
NOP1
NOP1
Tb2
CK#
CK
t CK
t CH
t CL
Valid 1
CKE
Command
NOP 1
PRE
NOP 1
NOP 1
REF
NOP 1
REF 2
ACT
Address
RA
All banks
A10
RA
One bank
Bank(s) 3
BA[2:0]
BA
DQS, DQS# 4
DQ4
DM 4
t RP
t RFC (MIN)
t RFC 2
Indicates A Break in
Time Scale
Notes:
LOGIC Devices Incorporated
Don’t Care
1. NOP commands are shown for ease of illustration; other valid commands may be
possible at these times. CKE must be active during the PRECHARGE, ACTIVATE,
and REFRESH commands, but may be inactive at other times (see “Power-Down
Mode” on page 153).
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
SELF REFRESH
7KH6(/)5()5(6+FRPPDQGLVXVHGWRUHWDLQGDWDLQWKH6'5$0HYHQLIWKHUHVWRIWKHV\VWHPLVSRZHUHGGRZQ:KHQLQWKH6(/)5()5(6+PRGHWKH
6'5$0UHWDLQVGDWDZLWKRXWH[WHUQDOFORFNLQJ7KH6(/)5()5(6+PRGHLVDOVRDFRQYHQLHQWPHWKRGXVHGWRHQDEOHGLVDEOHWKH'//DVZHOODVWRFKDQJH
WKHFORFNIUHTXHQF\ZLWKLQWKHDOORZHGV\QFKURQRXVRSHUDWLQJUDQJH$OOSRZHUVXSSO\LQSXWVLQFOXGLQJ95()&$DQG95()'4PXVWEHPDLQWDLQHGDWYDOLGOHYHOV
XSRQHQWU\H[LWDQGGXULQJ6(/)5()5(6+PRGHRSHUDWLRQ$OOSRZHUVXSSO\LQSXWVLQFOXGLQJ95()&$DQG95()'4PXVWEHPDLQWDLQHGDWYDOLGOHYHOVXSRQ
HQWU\H[LWDQGGXULQJ6(/)5()5(6+PRGHXQGHUFHUWDLQFRQGLWLRQV
x9VV95()'49DDLVPDLQWDLQHG
x95()'4LVYDOLGDQGVWDEOHSULRUWR&.(JRLQJEDFN+,*+
x7KHILUVW:5,7(RSHUDWLRQPD\QRWRFFXUHDUOLHUWKDQFORFNVDIWHU95()'4LVYDOLG
x$OORWKHU6(/)5()5(6+PRGHH[LWWLPHUHTXLUHPHQWVDUHPHW
DLL DISABLE MODE
,IWKH'//LVGLVDEOHGE\WKH02'(5(*,67(505>@FDQEHVZLWFKHGGXULQJLQLWLDOL]DWLRQRUODWHUWKH6'5$0LVWDUJHWHGEXWQRWJXDUDQWHHGWRRSHUDWH
VLPLODUO\WRWKH1250$/PRGHZLWKDIHZQRWDEOHH[FHSWLRQV
x
x
x
7KH6'5$0VXSSRUWVRQO\RQHYDOXHRI&$6ODWHQF\&/ DQGRQHYDOXHRI&$6:5,7(ODWHQF\&:/ '//',6$%/(PRGHDIIHFWVWKH5($'GDWDFORFNWRGDWDVWUREHUHODWLRQVKLSt'46&.EXWQRWWKH5($'GDWDWRGDWDVWUREHUHODWLRQVKLS
tDQSQ, t4+6SHFLDODWWHQWLRQLVQHHGHGWROLQHWKH5($'GDWDXSZLWKWKHFRQWUROOHUWLPHGRPDLQZKHQWKH'//LVGLVDEOHG
,Q1250$/RSHUDWLRQ'//RQ t'46&.VWDUWVIURPWKHULVLQJFORFNHGJH$/&/F\FOHVDIWHUWKH5($'FRPPDQG,Q'//',6$%/(
PRGH t'46&.VWDUWV$/ &/yF\FOHVDIWHUWKH5($'FRPPDQG$GGLWLRQDOO\ZLWKWKH'//GLVDEOHGWKHYDOXHRI t'46&.FRXOGEH
ODUJHUWKDQt&.
7KH2'7IHDWXUHLVQRWVXSSRUWHGGXULQJ'//',6$%/(PRGHLQFOXGLQJG\QDPLF2'77KH2'7UHVLVWRUVPXVWEHGLVDEOHGE\FRQWLQXRXVO\UHJLVWHULQJWKH
2'7EDOO/2:E\SURJUDPPLQJ5TT_NORM MR1[9,6,2] and RTTB:505>@WRvwZKLOHLQ'//',6$%/(PRGH
6SHFLILFVWHSVPXVWEHIROORZHGWRVZLWFKEHWZHHQWKH'//HQDEOHDQG'//',6$%/(PRGHVGXHWRDJDSLQWKHDOORZHGFORFNUDWHVEHWZHHQWKHWZRPRGHV
t&.>$9*@0$;DQG t&.>'//',6$%/(@0,1UHVSHFWLYHO\7KHRQO\WLPHWKHFORFNLVDOORZHGWRFURVVWKLVFORFNUDWHJDSLVGXULQJ6(/)5()5(6+PRGH
7KXVWKHUHTXLUHGSURFHGXUHIRUVZLWFKLQJIURPWKH'//(1$%/(WR'//',6$%/(PRGHLVWRFKDQJHIUHTXHQF\FXULQJVHOIUHIUHVKVHH)LJXUH
1.
2.
3.
4.
5.
6WDUWLQJIURPWKH,'/(VWDWHDOOEDQNVDUH35(&+$5*('DOOWLPLQJVDUHIXOILOOHG2'7LVWXUQHGRIIDQG5TT_NOM and RTTB:5DUH
+,*+=VHW05>@WRvwWR',6$%/(WKH'//
(QWHU6(/)5()5(6+PRGHDIWHUt02'KDVEHHQVDWLVILHG
$IWHUt&.65(LVVDWLVILHGFKDQJHWKHIUHTXHQF\WRWKHGHVLUHGFORFNUDWH
6(/)5()5(6+PD\EHH[LWHGZKHQWKHFORFNLVVWDEOHGZLWKWKHQHZIUHTXHQF\IRUt&.65;
7KH6'5$0ZLOOEHUHDG\IRULWVQH[WFRPPDQGLQWKH'//',6$%/(PRGHDIWHUWKHJUHDWHURItMRD or t02'KDVEHHQVDWLVILHG$=4&/
FRPPDQGVKRXOGEHLVVXHGZLWKDSSURSULDWHWLPLQJPHWDVZHOO
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 34 - DLL ENABLE MODE TO DLL DISABLE MODE
T0
T1
Ta0
Ta1
Tb0
Tc0
Td0
Td1
Te0
Te1
Tf0
CK#
CK
Vali d 1
CKE
Command
MRS2
6
NOP
SRE 3
t MOD
SRX 4
NOP
t CKSRE
t CKSRX 8
7
NOP
MRS5
NOP
Vali d 1
t MOD
t XS
t CKESR
ODT 9
Vali d 1
Indicates a Break in
Time Scale
127(6
1.
$Q\YDOLGFRPPDQG
2.
'LVDEOH'//E\VHWWLQJ05>@WRvw
3.
:DLWt;6WKHQVHW05>@WRvwWRHQDEOH'//
4.
:DLWt05'WKHQVHW05>@WRvwWREHJLQ'//5(6(7
5.
:DLWt05'XSGDWHUHJLVWHUV&/&:/DQGZULWHUHFRYHU\PD\EHQHFHVVDU\
6.
:DLWt02'DQ\YDOLGFRPPDQG
6WDUWLQJZLWKWKHLGOHVWDWH
8.
&KDQJHIUHTXHQF\
9.
&ORFNPXVWEHVWDEOHDWOHDVWt&.65;
10.
6WDWLF/2:LQFDVH5TT_NOM or RTTB:5LVHQDEOHGRWKHUZLVHVWDWLF/2:RU+,*+
Don ’t Care
$VLPLODUSURFHGXUHLVUHTXLUHGIRUVZLWFKLQJIURPWKH'//GLVDEOHPRGHEDFNWRWKH'//HQDEOHPRGH7KLVDOVRUHTXLUHVFKDQJLQJWKHIUHTXHQF\GXULQJVHOI
UHIUHVKPRGHVHH)LJXUHRQSDJH
6WDUWLQJIURPWKHLGOHVWDWHDOOEDQNVDUHSUHFKDUJHGDOOWLPLQJVDUHIXOILOOHG2'7LVWXUQHGRIIDQG5TT_NOM and RTTB:5DUH+LJK=
HQWHUVHOIUHIUHVKPRGH
$IWHUt&.65(LVVDWLVILHGFKDQJHWKHIUHTXHQF\WRWKHQHZFORFNUDWH
6HOIUHIUHVKPD\EHH[LWHGZKHQWKHFORFNLVVWDEOHZLWKWKHQHZIUHTXHQF\IRUt&.65;$IWHUt;6LVVDWLVILHGXSGDWHWKHPRGHUHJLVWHUV
ZLWKWKHDSSURSULDWHYDOXHV$WDPLQLPXPVHW05>@WRvwWRHQDEOHWKH'//:DLWt05'WKHQVHW05>@WRvwWRHQDEOH'//5(6(7
$IWHUDQRWKHUt05'GHOD\LVVDWLVILHGWKHQXSGDWHWKHUHPDLQLQJPRGHUHJLVWHUVZLWKWKHDSSURSULDWHYDOXHV
7KH'5$0ZLOOEHUHDG\IRULWVQH[WFRPPDQGLQWKH'//HQDEOHPRGHDIWHUWKHJUHDWHURItMRD or t02'KDVEHHQVDWLVILHG+RZHYHU
EHIRUHDSSO\LQJDQ\FRPPDQGRUIXQFWLRQUHTXLULQJDORFNHG'//DGHOD\RIt'//.DIWHU'//5(6(7PXVWEHVDWLVILHG$=4&/FRPPDQG
VKRXOGEHLVVXHGZLWKWKHDSSURSULDWHWLPLQJVPHWDVZHOO
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 35- DLL DISABLE MODE TO DLL ENABLE MODE
T0
Ta0
Ta1
Tb0
Tc0
Tc1
Td0
Te0
Tf0
Tg0
Th0
CK#
CK
CKE
Vali d
t DLLK
Command
SRE1
NOP
SRX2
NOP
t CKSRE
7
t CKSRX 9
8
MRS3
t XS
MRS4
t MRD
MRS5
Vali d 6
t MRD
ODTL off + 1 × t CK
t CKESR
ODT10
Indicates a Break in
Time Scale
Don ’t Care
127(6
1.
(QWHU6(/)5()5(6+
2.
([LW6(/)5()5(6+
3.
:DLWt;6WKHQVHW05>@WRvwWRHQDEOH'//
4.
:DLWt05'WKHQVHW05>@WRvwWREHJLQ'//5(6(7
5.
:DLWt05'XSGDWHUHJLVWHUV&/&:/DQGZULWHUHFRYHU\PD\EHQHFHVVDU\
6.
:DLWt02'DQ\YDOLGFRPPDQG
6WDUWLQJZLWKWKHLGOHVWDWH
8.
&KDQJHIUHTXHQF\
9.
&ORFNPXVWEHVWDEOHDWOHDVWt&.65;
10.
6WDWLF/2:LQFDVH5TT_NOM or RTTB:5LVHQDEOHGRWKHUZLVHVWDWLF/2:RU+,*+
7KHFORFNIUHTXHQF\UDQJHIRUWKH'//GLVDEOHPRGHLVVSHFLILHGE\WKHSDUDPHWHU t&.'//B',6'XHWRODWHQF\FRXQWHUDQGWLPLQJUHVWULFWLRQVRQO\&/ DQG&:/ DUHVXSSRUWHG
'//GLVDEOHPRGHZLOODIIHFWWKHUHDGGDWDFORFNWRGDWDVWUREHUHODWLRQVKLSt'46&.EXWQRWWKHGDWDVWUREHWRGDWDUHODWLRQVKLStDQSQ, t4+6SHFLDODWWHQWLRQLVQHHGHGWRWKHFRQWUROOHUWLPHGRPDLQ
&RPSDUHGWRWKH'//RQPRGHZKHUH t'46&.VWDUWVIURPWKHULVLQJFORFNHGJH$/&/F\FOHVDIWHUWKH5($'FRPPDQGWKH'//GLVDEOHPRGH t'46&.
VWDUWV$/&/F\FOHVDIWHUWKH5($'FRPPDQGVHH)LJXUHRQSDJH
:5,7(RSHUDWLRQVIXQFWLRQVLPLODUO\EHWZHHQWKH'//HQDEOHDQG'//GLVDEOHPRGHVKRZHYHU2'7IXQFWLRQDOLW\LVQRWDOORZHGZLWK'//GLVDEOHPRGH
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 36 - DLL DISABLE tDQSCK TIMING
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
READ
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
Add ress
Vali d
RL = AL + C L = 6 (C L = 6, AL = 0)
CL = 6
DQS, DQS# DLL on
DI
b
DQ BL8 DLL on
DI
b+1
DI
b+2
DI
b+3
DI
b+4
DI
b+5
DI
b+6
DI
b+7
RL (DLLdisable) = AL + (C L - 1) = 5
t DQSCK (DLL_DIS) MIN
DQS, DQS# DLL off
DI
b
DQ BL8 DLL disable
DI
b+1
DI
b+2
DI
b+3
DI
b+4
DI
b+5
DI
b+6
DI
b+7
DI
b+3
DI
b+4
DI
b+5
DI
b+6
t DQSCK (DLL_ DIS) MAX
DQS, DQS# DLL off
DI
b
DQ BL8 DLL disable
DI
b+1
DI
b+2
DI
b+7
Transitioning Data
Don ’t Care
INPUT CLOCK FREQUENCY CHANGE
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KDVEHHQVHWWRWKHVWDEOHVWDWHWKHFORFNSHULRGLVQRWDOORZHGWRGHYLDWHH[FHSWZKDWLVDOORZHGIRUE\WKHFORFNMLWWHUDQGVSUHDGVSHFWUXPFORFNLQJ66&
VSHFLILFDWLRQV
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PRGH2XWVLGHRIWKHVHWZRPRGHVLWLVLOOHJDOWRFKDQJHWKHFORFNIUHTXHQF\)RUWKH6(/)5()5(6+PRGHFRQGLWLRQZKHQWKH''56'5$0KDVEHHQ
VXFFHVVIXOO\SODFHGLQWR6(/)5()5(6+PRGHDQG t&.65(KDVEHHQVDWLVILHGWKHVWDWHRIWKHFORFNEHFRPHVDv'RQuW&DUHw:KHQWKHFORFNEHFRPHVD
v'RQuW&DUHwFKDQJLQJWKHFORFNIUHTXHQF\LVSHUPLVVLEOHSURYLGHGWKHQHZFORFNIUHTXHQF\LVVWDEOHSULRUWRt&.65;:KHQHQWHULQJDQGH[LWLQJVHOIUHIUHVK
PRGHIRUWKHVROHSXUSRVHRIFKDQJLQJWKHFORFNIUHTXHQF\WKH6(/)5()5(6+HQWU\DQGH[LWVSHFLILFDWLRQVPXVWVWLOOEHPHW
7KH35(&+$5*(SRZHUGRZQPRGHFRQGLWLRQLVZKHQWKH''56'5$0LVLQ35(&+$5*(SRZHUGRZQPRGHHLWKHUIDVWH[LWPRGHRUVORZH[LWPRGH
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EHH[LWHG$IWHU35(&+$5*(SRZHUGRZQLVH[LWHGDQGt;3KDVEHHQVDWLVILHGWKH'//PXVWEHUHVHWYLDWKH056'HSHQGLQJRQWKHQHZFORFNIUHTXHQF\
DGGLWLRQDO056FRPPDQGVPD\QHHGWREHLVVXHG'XULQJWKH'//ORFNWLPH5TT_NOM and RTTB:5PXVWUHPDLQLQDQRIIVWDWH$IWHUWKH'//ORFNWLPH
WKH6'5$0LVUHDG\WRRSHUDWHZLWKDQHZFORFNIUHTXHQF\SHULRG7KLVSURFHVVLVGHSLFWHGLQ)LJXUH
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 37- CHANGE FREQUENCY DURING PRECHARGE POWER-DOWN
Previous clock frequency
T0
T1
T2
New clock fre quency
Ta0
Tb0
Tc1
Tc0
Td0
Td1
Te0
Te1
CK#
CK
t CH
t CL
t CH
t CK
t CK
t CKSRE
t IS
t IH
t CH
b
t CK
b
t CL
b
t CH
b
b
b
t CL
t CK
b
b
t CKSRX
t CKE
t IH
CKE
t IS
t CPDED
Command
t CL
b
NOP
NOP
NOP
NOP
NOP
Address
MRS
Valid
NOP
Valid
DLL RESET
t AOFPD/ t AOF
t XP
t IH
t IS
ODT
DQS, DQS#
High-Z
High-Z
DQ
DM
t DLLK
Enter precharge
power-down mode
Frequency
change
Exit precharge
power-down mode
Indicates a Break in
Time Scale
Don’t Care
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LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
WRITE LEVELING
)RUEHWWHUVLJQDOLQWHJULW\''56'5$0PHPRU\VXEV\VWHPGHVLJQVKDYHDGRSWHGXVHRIIO\E\WRSRORJ\IRUWKHFRPPDQGVDGGUHVVHVFRQWUROVLJQDOVDQG
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SURFHGXUHLVVKRZQLQ)LJXUH
FIGURE 38- WRITE LEVELING CONCEPT
T0
T1
T2
T3
T4
T5
T6
T7
CK#
CK
Source
Differential DQS
Tn
T0
T1
T2
T3
T4
T5
T4
T5
T6
CK#
CK
Destination
Differential DQS
0
DQ
Destination
Tn
T0
T1
0
T2
T3
T6
CK#
CK
Push DQS to capture
0–1 transition
Differential DQS
1
DQ
1
Don’t Care
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
WRITE LEVELING
:KHQ:5,7(OHYHOLQJLVHQDEOHGWKHULVLQJHGJHRI'46VDPSOHV&.DQGWKHULPH'4RXWSXWVWKHVDPSOHG&.uVVWDWXV7KHSULPH'4IRUHDFKRIWKH
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WRITE LEVELING PROCEDURE
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LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 39- WRITE LEVELING SEQUENCE
T1
T2
t WLS
t WLH
CK#
CK
Command
MRS1
NOP2
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
t MOD
ODT
t WLDQSEN
t DQSL3
t DQSH3
t DQSL3
t DQSH3
Differential DQS4
t WLMRD
t WLO
t WLO
Prime DQ 5
t WLO
t WLOE
Early remaining DQ
t WLO
Late remaining DQ
Indicates a Break in
Time Scale
Undefined Driving Mode
Don’t Care
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4.
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LOGIC Devices Incorporated
www.logicdevices.com
80
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 40- EXIT WRITE LEVELING
T0
T1
T2
Ta0
Tb0
Tc0
Tc1
Tc2
Td0
Td1
Te0
Te1
NOP
NOP
NOP
NOP
NOP
NOP
NOP
M RS
NOP
t MRD
Valid
NOP
Valid
CK#
CK
Command
Add ress
Valid
MR1
t IS
Valid
t MOD
ODT
ODTL off
R TT DQS, R TT DQS#
t AOF (MIN)
RTT_NOM
t AOF (MAX)
DQS, DQS#
RTT_DQ
t WLO + t WLOE
DQ
CK = 1
Indicates a Break in
Time Scale
Undefined Driving Mode
Transitioning
Don ’t Care
Notes: 1. The DQ result, “= 1,” between Ta0 and Tc0, is a result of the DQS, DQS# signals capturing
CK HIGH just after the T0 state.
LOGIC Devices Incorporated
www.logicdevices.com
81
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
OPERATIONS
Initialization
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LOGIC Devices Incorporated
www.logicdevices.com
82
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 41- INITIALIZATION SEQUENCE
T (MAX) = 200ms
VDD
VDDQ
VTT
See power-up
c onditions
in the
initialization
sequence text,
set up 1
VREF
Power-up
ramp
t VTD
Sta ble and
vali d clo ck
T0
T1
t CK
Tc0
Tb0
Ta0
Td0
CK#
CK
t CKSRX
t CL
t CL
t IOz = 20ns
RESET#
t IS
T (MIN) = 10ns
Valid
CKE
Valid
ODT
t IS
Command
NOP
MRS
MRS
MRS
MRS
ZQCL
Add ress
Code
Code
Code
Code
A10
Code
Code
Code
Code
BA0 = L
BA1 = H
BA2 = L
BA0 = H
BA1 = H
BA2 = L
BA0 = H
BA1 = L
BA2 = L
BA0 = L
BA1 = L
BA2 = L
Valid
DM
BA[2:0]
Valid
Valid
A10 = H
Valid
DQS
DQ
RTT
T = 200μs (MIN)
T = 500μs (MIN)
MR2
All voltage
supplies valid
and stable
t MRD
t MRD
t MRD
t XPR
MR3
MR1 with
DLL ena ble
t MOD
MR0 with
DLL reset
t ZQ INIT
ZQ cali bration
t DLLK
DRAM ready for
external commands
Normal
operation
Indicates a Break in
Time Scale
LOGIC Devices Incorporated
www.logicdevices.com
83
Don ’t Care
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
MODE REGISTERS
0RGHUHJLVWHUV0505DUHXVHGWRGHILQHYDULRXVPRGHVRISURJUDPPDEOHRSHUDWLRQRIWKH''56'5$0L02'$PRGHUHJLVWHULVSURJUDPPHGYLD
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UHSURJUDPPHG5(6(7?JRHV/2:RUXQWLOWKHGHYLFHORVHVSRZHU
&RQWHQWVRIDPRGHUHJLVWHUFDQEHDOWHUHGE\UHH[HFXWLQJWKH056FRPPDQG,IWKHXVHUFKRRVHVWRPRGLI\RQO\DVXEVHWRIWKHPRGHUHJLVWHUuVYDULDEOHV
DOOYDULDEOHVPXVWEHSURJUDPPHGZKHQWKH056FRPPDQGLVLVVXHG5HSURJUDPPLQJWKHPRGHUHJLVWHUZLOOQRWDOWHUWKHFRQWHQWVRIWKHPHPRU\DUUD\
SURYLGHGLWLVSHUIRUPHGFRUUHFWO\
7KH056FRPPDQGFDQRQO\EHLVVXHGRUUHLVVXHGZKHQDOOEDQNVDUHLGOHDQGLQWKH35(&+$5*('VWDWHt53LVVDWLVILHGDQGQRGDWDEXUVWVDUHLQSURJUHVV$IWHUDQ056FRPPDQGKDVEHHQLVVXHGWZRSDUDPHWHUVPXVWEHVDWLVILHGtMRD and tMOD.
7KHFRQWUROOHUPXVWZDLWt05'EHIRUHLQLWLDWLQJDQ\VXEVHTXHQW056FRPPDQGVVHH)LJXUH
FIGURE 42- MRS-TO-MRS COMMAND TIMING (tMRD)
T0
T1
T2
Ta0
Ta1
Ta2
MRS1
NOP
NOP
NOP
NOP
MRS2
CK#
CK
Command
t MRD
Add ress
Valid
Valid
CKE 3
Indicates a Break in
Time Scale
Don ’t Care
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XSGDWHGIHDWXUHVDUHWREHDVVXPHGXQDYDLODEOH
LOGIC Devices Incorporated
www.logicdevices.com
84
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 43- MRS-TO-NONMRS COMMAND TIMING (tMOD)
T1
T2
t WLS
t WLH
CK#
CK
Command
MRS1
NOP2
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
t MOD
ODT
t WLDQSEN
t DQSL3
t DQSH3
t DQSL3
t DQSH3
Differential DQS4
t WLMRD
t WLO
t WLO
Prime DQ 5
t WLO
t WLOE
Early remaining DQ
t WLO
Late remaining DQ
Indicates a Break in
Time Scale
Undefined Driving Mode
Don’t Care
127(6
1.
3ULRUWRLVVXLQJWKH056FRPPDQGDOOEDQNVPXVWEHLGOHWKH\PXVWEHSUHFKDUJHGt53PXVWEH
VDWLVILHGDQGQRGDWDEXUVWVFDQEHLQSURJUHVV
2.
3ULRUWR7DZKHQt02'0,1LVEHLQJVDWLVILHGQRFRPPDQGVH[FHSW123'(6PD\EHLVVXHG
3.
,I577ZDVSUHYLRXVO\HQDEOHG2'7PXVWEHUHJLVWHUHG/2:DW7VRWKDW2'7/LVVDWLVILHGSULRU
WR7D2'7PXVWDOVREHUHJLVWHUHG/2:DWHDFKULVLQJ&.HGJHIURP7XQWLO t02'0,1LV
VDWLVILHGDW7D
4.
&.( PXVW EH UHJLVWHUHG +,*+ IURP WKH 056 FRPPDQG XQWLO t0563'(1 0,1 DW ZKLFK WLPH
SRZHUGRZQPD\RFFXUVHHv3RZHU'RZQ0RGHwRQSDJH
MODE REGISTER 0 (MR0)
7KHEDVHUHJLVWHU05LVXVHGWRGHILQHYDULRXV''5L02'PRGHVRIRSHUDWLRQ7KHVHGHILQLWLRQVLQFOXGHWKHVHOHFWLRQRIDEXUVWOHQJWKEXUVWW\SH&$6
ODWHQF\RSHUDWLQJPRGH'//5(6(7:5,7(UHFRYHU\DQG35(&+$5*(SRZHUGRZQPRGHDVVKRZQLQ)LJXUH
LOGIC Devices Incorporated
www.logicdevices.com
85
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
MODE REGISTER 0 (MR0)
BURST TYPE
BURST LENGTH
$FFHVVHVZLWKLQDJLYHQEXUVWPD\EHSURJUDPPHGWRHLWKHUDVHTXHQWLDO
RUDQLQWHUOHDYHGRUGHU7KHEXUVWW\SHLVVHOHFWHGYLD05>@DVVKRZQ
LQ)LJXUH7KHRUGHULQJRIDFFHVVHVZLWKLQDEXUVWLVGHWHUPLQHGE\WKH
EXUVW OHQJWK WKH EXUVW W\SH DQG WKH VWDUWLQJ FROXPQ DGGUHVV DV VKRZQ
LQ7DEOH''5RQO\VXSSRUWVELWEXUVWFKRSDQGELWEXUVWDFFHVV
PRGHV )XOO LQWHUOHDYHGDGGUHVV RUGHULQJ LVVXSSRUWHG IRU5($'VZKLOH
:5,7(VDUHUHVWULFWHGWRQLEEOH%&RUZRUG%/ERXQGDULHV
%XUVW OHQJWK LV GHILQHG E\ 05>@ VHH )LJXUH 5($' DQG :5,7(
DFFHVVHV WR WKH ''5 6'5$0 L02' DUH EXUVWRULHQWHG ZLWK WKH EXUVW
OHQJWKEHLQJSURJUDPPDEOHWRvwFKRSPRGHvwIL[HGEXUVWRUVHOHFWDEOH XVLQJ $ GXULQJ D 5($':5,7( FRPPDQG RQ WKH IO\ 7KH EXUVW
OHQJWK GHWHUPLQHV WKH PD[LPXP QXPEHU RI FROXPQ ORFDWLRQV WKDW FDQ EH
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vwGXULQJD5($':5,7(FRPPDQGLI$ WKHQ%&FKRSPRGHLV
VHOHFWHG,I$ WKHQ%/PRGHLVVHOHFWHG6SHFLILFWLPLQJGLDJUDPV
DQG WXUQDURXQG EHWZHHQ 5($':5,7( DUH VKRZQ LQ WKH 5($':5,7(
VHFWLRQVRIWKLVGRFXPHQW
:KHQ D 5($' RU :5,7( FRPPDQG LV LVVXHG D EORFN RI FROXPQV HTXDO
WRWKHEXUVWOHQJWKLVHIIHFWLYHO\VHOHFWHG$OODFFHVVHVIRUWKDWEXUVWWDNH
SODFHZLWKLQWKLVEORFNPHDQLQJWKDWWKHEXUVWZLOOZUDSZLWKLQWKHEORFNLI
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ZKHUH$LLVWKHPRVWVLJQLILFDQWFROXPQDGGUHVVELWIRUDJLYHQVWDUWLQJORFDWLRQZLWKLQWKHEORFN7KHSURJUDPPHGEXUVWOHQJWKDSSOLHVWRERWK5($'
DQG:5,7(EXUVWV
FIGURE 44- MODE REGISTER 0 (MR0) DEFINITIONS
BA2 BA 1 BA 0 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0
Address bus
16 15 14 13 12 11 10
0 0 01 PD
WR
Mode register 0 (MR0)
9
01
M15 M14
8 7 6 5 4 3 2
DLL 01 CAS# latency BT 01
1 0
BL
M1 M0
Mode Register
0
0
0
1
Burst Length
Fixed BL8
0
0
Mode register 0 (MR0)
0
1
Mode register 1 (MR1)
M12
Precharge PD
1
0
Mode register 2 (MR2)
0
DLL off (slow exit)
0
No
1
0
Fixed BC4 (chop)
1
1
Mode register 3 (MR3)
1
DLL on (fast exit)
1
Yes
1
1
Reserved
LOGIC Devices Incorporated
Write Recovery
M6 M5 M4
4 or 8 (on-the-fly via A12)
CAS Latency
M3
READ Burst Type
0
0
0
Reserved
0
0
0
Reserved
0
Sequential (nibble)
0
0
1
5
0
0
1
5
1
Interleaved
0
1
0
6
0
1
0
6
0
1
1
7
0
1
1
7
1
0
0
8
1
0
0
8
1
0
1
10
1
0
1
9
1
1
0
12
1
1
0
10
1
1
1
Reserved
1
1
1
11
M11 M10 M9
Notes:
M8 DLL Reset
1. MR0[16, 13, 7, 2] are reserved for future use and must be programmed to “0.”
www.logicdevices.com
86
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 60: BURST ORDER
Burst Length
Read/Write
&+23
Starting Column
Address (A[2,1,0])
5($'
:5,7(
8
5($'
:5,7(
000
001
Burst Type (Decimal)
Type = Sequential
Type = Interleaved
====
1,2
====
====
1,2
010
====
====
1,2
011
====
====
1,2
100
====
====
1,2
101
====
====
1,2
110
====
====
1,2
111
====
====
1,2
99
;;;;
;;;;
1,3,4
99
;;;;
;;;;
1,3,4
000
1
001
1
010
1
011
1
100
1
101
1
110
1
111
1
1,3
999
127(6
1.
,QWHUQDO5($'DQG:5,7(RSHUDWLRQVVWDUWDWWKHVDPHSRLQWLQWLPHIRU
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DLL RESET
2.
= 'DWDDQG6WUREHRXWSXWGULYHUVLQWULVWDWH
3.
; w'RQuW&DUHw
WRITE RECOVERY
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WRvwDFWLYDWHVWKH'//5(6(7IXQFWLRQ05>@LVVHOIFOHDULQJPHDQLQJ LW UHWXUQV WR D YDOXH RI vw DIWHU WKH '// 5(6(7 IXQFWLRQ KDV EHHQ
initiated.
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5(&29(5< YDOXHV RI RU PD\ EH XVHG E\ SURJUDPPLQJ
05>@7KHXVHULVUHTXLUHGWRSURJUDPWKHFRUUHFWYDOXHRI:5,7(
5(&29(5<DQGLVFDOFXODWHGE\GLYLGLQJt:5QVE\t&.QVDQGURXQGLQJ XS D QRQLQWHJHU YDOXH WR WKH QH[W LQWHJHU :5 F\FOHV URXQGXS
t:5>[email protected]&.>[email protected]
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FRPPDQGFDQEHLVVXHG7KLVLVWRDOORZWLPHIRUWKHLQWHUQDOFORFNWREH
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LOGIC Devices Incorporated
Notes
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www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
CAS Latency (CL)
PRECHARGE POWER-DOWN (PRECHARGE PD)
7KH35(&+$5*(3'ELWDSSOLHVRQO\ZKHQ35(&+$5*(SRZHUGRZQ
PRGHLVEHLQJXVHG:KHQ05>@LVVHWWRvwWKH'//LVRIIGXULQJ
35(&+$5*(SRZHUGRZQSURYLGLQJDORZHUVWDQGE\FXUUHQWPRGHKRZHYHU t;3'// PXVW EH VDWLVILHG ZKHQ H[LWLQJ :KHQ 05>@ LV VHW WR
vwWKH'//FRQWLQXHVWRUXQGXULQJ35(&+$5*(SRZHUGRZQPRGHWR
HQDEOH D IDVWHU H[LW RI 35(&+$5*( SRZHUGRZQ PRGH KRZHYHU t;3
PXVWEHVDWLVILHGZKHQH[LWLQJVHH3RZHU'RZQPRGHRQ3DJH
7KH&/LVGHILQHGE\05>@DVVKRZQLQ)LJXUH&$6ODWHQF\LVWKH
GHOD\DVPHDVXUHGLQFORFNF\FOHVEHWZHHQWKHLQWHUQDO5($'FRPPDQG
DQGWKHDYDLODELOLW\RIWKHILUVWELWRIYDOLGRXWSXWGDWD7KH&/FDQEHVHW
WRRU''56'5$0L02'VGRQRWVXSSRUWKDOIFORFNODWHQFLHV
([DPSOHVRI&/ DQG&/ DUHVKRZQLQ)LJXUHEHORZ,IDQLQWHUQDO
5($'FRPPDQGLVUHJLVWHUHGDWFORFNHGJHQDQGWKH&$6ODWHQF\LVP
FORFNVWKHGDWDZLOOEHDYDLODEOHQRPLQDOO\FRLQFLGHQWZLWKFORFNHGJHQP
7DEOHLQGLFDWHVWKH&/VVXSSRUWHGDWDYDLODEOHRSHUDWLQJIUHTXHQFLHV
FIGURE 45- READ LATENCY
T0
T1
T2
T3
T4
T5
T6
T7
T8
READ
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
AL = 0, CL = 6
DQS, DQS#
DI
n
DQ
DI
n+1
DI
n+2
DI
n+3
DI
n+4
T0
T1
T2
T3
T4
T5
T6
T7
T8
READ
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
AL = 0, CL = 8
DQS, DQS#
DI
n
DQ
Transitioning Data
Don’t Care
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2.
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www.logicdevices.com
88
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
MODE REGISTER 1 (MR1)
7KH 02'( 5(*,67(5 05 FRQWUROV DGGLWLRQDO IXQFWLRQV DQG IHDWXUHV QRW DYDLODEOH LQ WKH RWKHU PRGH UHJLVWHUV 4 2)) 287387 ',6$%/( '//
(1$%/('//',6$%/(5TTB120YDOXH2'7:5,7(/(9(/,1*3267('&$6$'',7,9(ODWHQF\DQG287387'5,9(675(1*7+7KHVHIXQFWLRQV
DUHFRQWUROOHGYLDWKHELWVVKRZQLQ)LJXUHEHORZ7KH05UHJLVWHULVSURJUDPPHGYLDWKH05FRPPDQGDQGUHWDLQVWKHVWRUHGLQIRUPDWLRQXQWLOLWLV
UHSURJUDPPHGXQWLO5(6(7?JRHV/2:WUXHRUXQWLOWKHGHYLFHORVHVSRZHU5HSURJUDPPLQJWKH05UHJLVWHUZLOOQRWDOWHUWKHFRQWHQWVRIWKHPHPRU\
DUUD\SURYLGHGWKHRSHUDWLRQLVSHUIRUPHGFRUUHFWO\
7KH05UHJLVWHUPXVWEHORDGHGZKHQDOOEDQNVDUHLGOHDQGQREXUVWVDUHLQSURJUHVV7KHFRQWUROOHUPXVWVDWLVI\WKHVSHFLILHGWLPLQJSDUDPHWHUVtMRD and
t02'EHIRUHLQLWLDWLQJDVXEVHTXHQWRSHUDWLRQ
FIGURE 46- MODE REGISTER 1 (MR1) DEFINITION
BA2 BA 1 BA 0 A13 A12 A11 A10 A9 A 8 A7 A6 A5 A4 A3 A 2
A1 A0
Address bus
16 15 14 13 12 11 10 9 8 7 6 5
01 0 1 01 Q Off TDQS 01 RTT 01 WL RTT ODS
M15 M14
4 3 2
1 0
AL RTT ODS DLL
Mode register 1 (MR1)
Mode Register
0
0
Mode register set 0 (MR0)
M12
Q Off
M11
TDQS
0
1
Mode register set 1 (MR1)
0
Enabled
0
Disabled
1
0
Mode register set 2 (MR2)
1
Disabled
1
Enabled
1
1
Mode register set 3 (MR3)
RTT_NOM (ODT)2
M0
DLL Enable
0
Enable (normal)
1
Disable
M5 M1 Output Drive Strength
RTT_NOM (ODT)3
M7 Write Levelization
M9 M6 M2
Non-Writes
Writes
0
Disable (normal)
0 0 0
RTT_NOM disabled
RTT_NOM disabled
1
Enable
0 0 1
RZQ/4 (60Ω [NOM])
RZQ/4 (60Ω [NOM])
0
0
RZQ/6 (40Ω [NOM])
0
1
RZQ/7 (34Ω [NOM])
1
0
Reserved
1
1
Reserved
0 1 0 RZQ/2 (120Ω [NOM]) RZQ/2 (120Ω [NOM])
0 1 1
RZQ/6 (40Ω [NOM])
RZQ/6 (40Ω [NOM])
M4 M3 Additive Latency (AL)
1 0 0 RZQ/12 (20Ω [NOM])
n/a
0
0
Disabled (AL = 0)
1 0 1
RZQ/8 (30Ω [NOM])
n/a
0
1
AL = CL - 1
1 1 0
Reserved
Reserved
1
0
AL = CL - 2
1 1 1
Reserved
Reserved
1
1
Reserved
127(6
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LOGIC Devices Incorporated
www.logicdevices.com
89
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ON-DIE TERMINATION (ODT)
DLL ENABLE/DLL DISABLE
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High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
POSTED CAS ADDITIVE LATENCY (AL)
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$/:/ $/&:/VHHv02'(5(*,67(505w([DPSOHVRI5($'DQG:5,7(ODWHQFLHVDUHVKRZQLQ)LJXUHDQG)LJXUH
FIGURE 47- READ LATENCY (AL = 5, CL = 6)
BC4
T0
T1
ACTIVE n
READ n
T2
T6
T11
T12
T13
T14
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
t RCD (MIN)
DQS, DQS#
AL = 5
CL = 6
DO
n
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n+1
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n+2
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n+3
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Indicates a Break in
Time Scale
LOGIC Devices Incorporated
www.logicdevices.com
91
Transitioning Data
Don’t Care
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
MODE REGISTER 2 (MR2)
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WLPHtMRD and t02'EHIRUHLQLWLDWLQJDVXEVHTXHQWRSHUDWLRQ
FIGURE 48- MODE REGISTER 2 (MR2) DEFINITION
BA2 BA 1 BA 0 A13 A12 A11 A10 A9 A8 A7 A 6 A5 A4 A3 A2 A1 A0
Address bus
16 15 14 13 12 11 10 9 8 7 6
0 01 01 01 RTT_WR 01 SRT ASR
Mode Register 2 (MR2)
5
01 1
M15 M14
Mode Register
M5 M4 M3
2 1 0
01 01 01
CAS Write Latency (CWL)
5 CK (t CK ≥ 2.5ns)
0
Mode register set 0 (MR0)
0
Normal (0° C to 85° C)
0
0
0
0
1
Mode register set 1 (MR1)
1
Extended (0°C to 95° C)
0
0
1
1
0
Mode register set 2 (MR2)
0
1
0
6 CK (2.5ns > t CK ≥ 1.875ns)
7 CK (1.875ns > t CK ≥ 1.5ns)
1
1
Mode register set 3 (MR3)
0
1
1
8 CK (1.5ns > t CK ≥ 1.25ns)
1
0
0
Reserved
1
0
1
Reserved
1
1
0
Reserved
1
1
1
Reserved
0
LOGIC Devices Incorporated
3
0
M10 M9
Notes:
M7 Self Refresh Temperature
4
CWL
0
Dynamic ODT
( R TT_WR )
RTT_WR disabled
RZQ/4
0
1
1
0
RZQ/2
1
1
Reserved
M6
0
Auto Self Refresh
(Optional)
Disabled: Manual
1 Enabled: Automatic
1. MR2[16, 13:11, 8, and 2:0] are reserved for future use and must all be programmed to “0.”
www.logicdevices.com
92
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
CAS WRITE LATENCY (CWL)
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FIGURE 49- CAS WRITE LATENCY
BC4
T0
T1
ACTIVE n
WRITE n
T2
T6
T11
T12
T13
T14
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
t RCD (MIN)
DQS, DQS#
AL = 5
CWL = 6
DI
n
DQ
DI
n+1
DI
n+2
DI
n+3
WL = AL + CWL = 11
Indicates A Break in
Time Scale
Transitioning Data
Don’t Care
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SELF REFRESH TEMPERATURE (SRT)
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93
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
DYNAMIC ODT
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WHUPLQDWLRQYDOXHWRFKDQJHZLWKRXWLVVXLQJDQ056FRPPDQGHVVHQWLDOO\FKDQJLQJWKH2'7WHUPLQDWLRQvRQWKHIO\w
:LWK G\QDPLF 2'7 5TTB:5 ZKHQ EHJLQQLQJ D :5,7( EXUVW DQG VXEVHTXHQWO\ VZLWFKHV EDFN WR 2'7 5TTB:5 LV HQDEOHG 2'7/&1: 2'7/&1:
2'7/&1:2'7+2'7+DQGt$'&
'\QDPLF2'7LVRQO\DSSOLFDEOHGXULQJ:5,7(F\FOHV,I2'75TTB120LVGLVDEOHGG\QDPLF2'75TTB:5LVVWLOOSHUPLWWHG5TT_NOM and RTTB:5FDQ
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MODE REGISTER (MR3)
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WKHPHPRU\FRQWUROOHUPXVWZDLWWKHVSHFLILHGWLPHtMRD and t02'EHIRUHLQLWLDWLQJDVXEVHTXHQWRSHUDWLRQ
FIGURE 50 - MODE REGISTER 3 (MR3) DEFINITION
BA2 BA 1 BA 0 A13 A12 A11 A10 A9
16
01
A8
A7 A 6 A5
A4 A3
0
MPR Enable
Normal DRAM operations 2
1
Mode register set 1 (MR1)
1
Dataflow from MPR
0
Mode register set 2 (MR2)
1
Mode register set 3 (MR3)
0
0
0
1
1
A1 A0
15 14 13 12 11 10 9
8 7
6
5 4
3
2
1 0
1
1 01 01 01 01 01 01 01 01 01 01 01 MPR MPR_RF
Mo de register set (MR0)
M15 M14
A2
Mode Register
M2
M1 M0
Address bus
Mode register 3 (MR3)
0
0
MPR READ Function
Predefined pattern 3
0
1
Reserved
1
0
Reserved
1
1
Reserved
127(6
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www.logicdevices.com
94
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
MULTIPURPOSE REGISTER (MPR)
7KH08/7,385326(5(*,67(5IXQFWLRQLVXVHGWRRXWSXWDSUHGHILQHGV\VWHPWLPLQJFDOLEUDWLRQELWVHTXHQFH%LWLVWKHPDVWHUELWWKDWHQDEOHVRUGLVDEOHV
DFFHVVWRWKH035UHJLVWHUDQGELWVDQGGHWHUPLQHZKLFKPRGHWKH035LVSODFHGLQ7KHEDVLFFRQFHSWRIWKHPXOWLSXUSRVHUHJLVWHULVVKRZQLQ)LJXUH
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QRUPDOUHDGGDWDEXWRXWSXWV035GDWDDVGHILQHGE\05>@,I05>@LVHTXDOWRvwWKHQDSUHGHILQHGUHDGSDWWHUQIRUV\VWHPFDOLEUDWLRQLVVHOHFWHG
7RHQDEOHWKH035WKH056FRPPDQGLVLVVXHGWR05DQG05>@ VHH7DEOH3ULRUWRLVVXLQJWKH056FRPPDQGDOOEDQNVPXVWEHLQWKHLGOHVWDWH
DOOEDQNVDUHSUHFKDUJHGDQGt53LVPHW:KHQWKH035LVHQDEOHGDQ\VXEVHTXHQW5($'RU5'$3FRPPDQGVDUHUHGLUHFWHGWRWKHPXOWLSXUSRVHUHJLVWHU
7KHUHVXOWLQJRSHUDWLRQZKHQHLWKHUD5($'RUD5'$3FRPPDQGLVLVVXHGLVGHILQHGE\05>@ZKHQ035LVHQDEOHGVHH7DEOH:KHQWKH035LV
HQDEOHGRQO\5($'RU5'$3FRPPDQGVDUHDOORZHGXQWLODVXEVHTXHQW056FRPPDQGLVLVVXHGZLWKWKH035GLVDEOHG05>@ 32:(5'2:16(/)
5()5(6+DQGDQ\RWKHU1215($'RU5'$3FRPPDQGLVQRWDOORZHG7KH5(6(7IXQFWLRQLVVXSSRUWHGGXULQJ035HQDEOHPRGH
FIGURE 51 - MULTIPURPOSE REGISTER (MPR) BLOCK DIAGRAM
Memory core
MR3[2] = 0 (MPR off)
Multipurpose register
pre defined data for READs
MR3[2] = 1 (MPR on)
DQ, DM, DQ S, DQS#
127(6
1.
$SUHGHILQHGGDWDSDWWHUQFDQEHUHDGRXWRIWKH035ZLWKDQH[WHUQDO5($'FRPPDQG
2.
05>@GHILQHVZKHWKHUWKHGDWDIORZFRPHVIURPWKHPHPRU\FRUHRUWKH035:KHQWKHGDWD
IORZ LV GHILQHG WKH 035 FRQWHQWV FDQ EH UHDG RXW FRQWLQXRXVO\ ZLWK D UHJXODU 5($' RU 5'$3
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www.logicdevices.com
95
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 61: BURST ORDER
MR3[2]
MPR
0
MR3[1:0]
MPR READ Function
Function
v'RQuW&DUHw
1RUPDO2SHUDWLRQQR035WUDQVDFWLRQ$OOVXEVHTXHQW5($'VFRPHIURP
WKH6'5$0PHPRU\DUUD\$OOVXEVHTXHQW:5,7(VJRWRWKH6'5$0
PHPRU\DUUD\
1
$>@6HH7DEOH
(QDEOH035PRGHVXEVHTXHQW5($'5'$3FRPPDQGVGHILQHGE\ELWV
and 2.
MPR FUNCTIONAL DESCRIPTION
7KH035-('(&GHILQLWLRQDOORZVIRUHLWKHUDSULPH'4IRUORZHUE\WHDQG'4IRUWKHXSSHUE\WHRIHDFKRIWKHZRUGVFRQWDLQHGLQWKH/',L02'WRRXWSXW
WKH035GDWDZLWKWKHUHPDLQLQJ'4VGULYHQ/2:RUIRUDOO'4VWRRXWSXWWKH035GDWD7KH035UHDGRXWVXSSRUWVIL[HG5($'EXUVWDQG5($'EXUVWFKRS
056DQG27)YLD$%&ZLWKUHJXODU5($'ODWHQFLHVDQG$&WLPLQJVDSSOLFDEOH7KLVSURYLGLQJWKH'//LVORFNHGDVUHTXLUHG
035DGGUHVVLQJIRUDYDOLG0355($'LVDVIROORZV
x$>@PXVWEHVHWWRvwDVWKHEXUVWRUGHULVIL[HGSHUQLEEOH
x$VHOHFWVWKHEXUVWRUGHU
x%/$LVVHWWRvwDQGWKHEXUVWRUGHULVIL[HGWR
x)RUEXUVWFKRSFDVHVWKHEXUVWRUGHULVVZLWFKHGRQWKHQLEEOHEDVHDQG
x$ EXUVWRUGHU x$ EXUVWRUGHU x%XUVWRUGHUELWWKHILUVWELWLVDVVLJQHGWR/6%DQGEXUVWRUGHUELWWKHODVWELWLVDVVLJQHGWR06%
x$>@DUHDv'RQuW&DUHw
x$LVDv'RQuW&DUHw
x$LVDv'RQuW&DUHw
x$6HOHFWVEXUVWFKRSPRGHRQWKHIO\LIHQDEOHGZLWKLQ05
x$LVDv'RQuW&DUHw
x%$>@DUHDv'RQuW&DUHw
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www.logicdevices.com
96
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
MPR REGISTER ADDRESS DEFINITIONS and BURSTING ORDER
7KH035FXUUHQWO\VXSSRUWVDVLQJOHGDWDIRUPDW7KLVGDWDIRUPDWLVDSUHGHILQHG5($'SDWWHUQIRUV\VWHPFDOLEUDWLRQ7KHSUHGHILQHGSDWWHUQLVDOZD\VD
UHSHDWLQJELWSDWWHUQ
([DPSOHVRIWKHGLIIHUHQWW\SHRISUHGHILQHG5($'SDWWHUQEXUVWVDUHVKRZQLQ)LJXUHVDQG
TABLE 62: BURST ORDER
MR3[2]
MR3[1:0]
Function
Burst
Length
00
5($'SUHGHILQHGSDWWHUQIRU
BL8
1
Read
A[2:0]
000
Burst Order and Data Pattern
%XUVW2UGHU
3UHGHILQHGSDWWHUQ
V\VWHPFDOLEUDWLRQ
%&
000
%XUVW2UGHU
3UHGHILQHGSDWWHUQ
%&
100
%XUVW2UGHU
3UHGHILQHGSDWWHUQ
1
1
1
LOGIC Devices Incorporated
01
5)8
10
5)8
11
5)8
www.logicdevices.com
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
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High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
98
DQ
Notes:
0
A [ 15:13]
DQS, DQS#
0
A12/BC#
0
A10/AP
0
00
A[9:3]
A 11
1
A2
1
0
MRS
A[1:0]
t RP
Ta0
3
PREA
T0
Bank add ress
Command
CK#
CK
NOP
NOP
Tc5
NOP
Tc6
t MPRR
MRS
Tc7
0
0
Vali d 1
Val i d
0
0
00
Val i d
Vali d
Vali d
0
NOP
Tc4
02
NOP
Tc3
Vali d
NOP
Tc2
02
RL
NOP
Tc1
3
NOP
Tc0
Vali d
READ1
Tb1
1. READ with BL8 either by MRS or OTF.
2. Memory controller must drive 0 on A[2:0].
t MOD
Tb0
Indicates a Break in
Time Scale
t MOD
NOP
Tc8
NOP
Tc9
Don ’t Care
Valid
Tc10
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 52 - MPR System Read Calibration with BL8: Fixed Burst Order Single Readout
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
99
DQ
Notes:
0
A[15:13]
DQS, DQS#
0
A12/BC#
0
A10/AP
0
00
A[9:3]
A11
1
A2
1
0
MRS
A[1:0]
t RP
Ta
3
PREA
T0
Bank add ress
Command
CK#
CK
RL
NOP
Tc6
NOP
Tc7
t MPRR
NOP
Tc9
Indicates a Break in
Time Scale
NOP
Tc8
0
00
0
Vali d
3
MRS
Tc10
Vali d
RL
Vali d
0
0
NOP
Tc5
Vali d 1
NO
Tc4
Vali d
NOP
Tc3
0
NOP
Tc2
Vali d
Vali d
NOP
Tc1
Vali d
Vali d
Vali d
12
02
Vali d
02
02
READ1
Vali d
t CCD
Vali d
READ1
Tc0
1. READ with BL8 either by MRS or OTF.
2. Memory controller must drive 0 on A[2:0].
t MOD
Tb
Vali d
Don ’t Care
t MOD
Td
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 53 - MPR System Read Calibration with BL8: Fixed Burst Order, Back-to-Back Readout
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
100
DQ
DQS, DQS#
Notes:
1.
2.
3.
4.
Vali d 1
0
0
Vali d 1
Val i d
0
A 11
A12/BC#
A[15:13]
Vali d
Val i d
0
1
RL
Vali d
NOP
Tc1
NOP
Tc2
RL
NOP
Tc3
READ with BC4 either by MRS or OTF.
Memory controller must drive 0 on A[1:0].
A2 = 0 selects lower 4 nibble bits 0 . . . 3.
A2 = 1 selects upper 4 nibble bits 4 . . . 7.
Vali d
Vali d
Vali d
A 10/A P
Val i d
00
14
03
A [ 9:3]
02
1
Vali d
READ1
02
t CCD
Vali d
READ1
0
t MOD
Tc0
A2
MRS
Tb
A[1:0]
t RF
Ta
3
PREA
T0
Bank add ress
Command
CK#
CK
NOP
Tc4
NOP
Tc5
NOP
Tc6
NOP
Tc7
t MPRR
0
0
0
0
00
0
Vali d
3
MRS
Tc8
t MOD
NOP
Tc10
Indicates a Break in
Time Scale
NOP
Tc9
Don ’t Care
Valid
Td
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 54 - MPR System Read Calibration with BC4: Lower Nibble, Then Upper Nibble
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
101
DQ
DQS, DQS#
A [ 15:13]
0
0
A12/BC#
0
A 10/A P
0
00
A [ 9:3]
A 11
1
A2
1
0
MRS
A[1:0]
t RF
Ta
3
PREA
T0
Bank add ress
Command
CK#
CK
t MOD
RL
Vali d
Vali d 1
Vali d 1
Val i d
Vali d
Vali d
Val i d
Val i d
Vali d
04
13
Val i d
02
02
READ1
Vali d
t CCD
Tc0
Vali d
READ1
Tb
Notes:
NOP
Tc1
1.
2.
3.
4.
RL
NOP
Tc3
NOP
Tc4
NOP
Tc5
NOP
Tc6
READ with BC4 either by MRS or OTF.
Memory controller must drive 0 on A[1:0].
A2 = 1 selects upper 4 nibble bits 4 . . . 7.
A2 = 0 selects lower 4 nibble bits 0 . . . 3.
NOP
Tc2
t MPRR
NOP
Tc7
0
0
0
0
00
0
t MOD
NOP
Tc9
Indicates a Break in
Time Scale
Vali d
3
MR S
Tc8
NOP
Tc10
Don ’t Care
Valid
Td
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 55 - MPR System Read Calibration with BC4: Upper Nibble, Then Lower Nibble
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
MPR READ PREDEFINED PATTERN
7KHSUHGHWHUPLQHG5($'FDOLEUDWLRQSDWWHUQLVDIL[HGSDWWHUQRI7KHIROORZLQJLVDQH[DPSOHRIXVLQJWKH5($'RXWSUHGHWHUPLQHG5($'
FDOLEUDWLRQSDWWHUQ7KHH[DPSOHLVWRSHUIRUPPXOWLSOH5($'6IURPWKH08/7,385326(5(*,67(5035LQRUGHUWRGRV\VWHPOHYHO5($'WLPLQJFDOLEUDWLRQEDVHGRQWKHSUHGHWHUPLQHGDQGVWDQGDUGL]HGSDWWHUQ
7KHIROORZLQJSURWRFRORXWOLQHVWKHVWHSVXVHGWRSHUIRUPWKH5($'FDOLEUDWLRQ
x3UHFKDUJHDOOEDQNV
x$IWHUt53LVVDWLVILHGVHW05605>@ DQG05>@ 7KLVUHGLUHFWVDOOVXEVHTXHQW5($'VDQG/RDGVWKHSUHGHILQHGSDWWHUQLQWR
WKH035$VVRRQDVtMRD and t02'DUHVDWLVILHGWKH035LVDYDLODEOH
x'DWD:5,7(RSHUDWLRQVDUHQRWDOORZHGXQWLOWKH035UHWXUQVWRWKHQRUPDO6'5$0VWDWH
x,VVXHD5($'ZLWKEXUVWRUGHULQIRUPDWLRQDOORWKHUDGGUHVVSLQVDUHv'RQuW&DUHw
x$>@ GDWDEXUVWRUGHULVIL[HGVWDUWLQJDWQLEEOH
x$ IRU%/EXUVWRUGHULVIL[HGDV
x$ XVH%/
x$IWHU5/ $/&/WKH6'5$0EXUVWVRXWWKHSUHGHILQHG5($'FDOLEUDWLRQSDWWHUQ
x7KHPHPRU\FRQWUROOHUUHSHDWVWKHFDOLEUDWLRQ5($'VXQWLO5($'GDWDFDSWXUHDWWKHPHPRU\FRQWUROOHULVRSWLPL]HG
x$IWHUWKHODVW0355($'EXUVWDQGDIWHU t0355KDVEHHQVDWLVILHGLVVXH05605>@ DQG05>@ v'RQuW&DUHwWRWKHQRUPDO
6'5$0VWDWH$OOVXEVHTXHQW5($'DQG:5,7(DFFHVVHVZLOOEHUHJXODU5($'6DQG:5,7(6IURPWRWKH6'5$0DUUD\
x:KHQ tMRD and t02'DUHVDWLVILHGIURPWKHODVW056WKHUHJXODU6'5$0FRPPDQGVVXFKDV$&7,9$7(D0HPRU\EDQNIRUUHJXODU
5($'RU:5,7(DFFHVVDUHSHUPLWWHG
MODE REGISTER SET (MRS)
7KHPRGHUHJLVWHUVDUHORDGHGYLDLQSXWV%$>@$>@%$>@GHWHUPLQHVZKLFKPRGHUHJLVWHULVSURJUDPPHG
x%$
x%$
x%$
x%$
%$
%$
%$
%$
%$
%$
%$
%$
IRU05
IRU05
IRU05
IRU05
7KH056FRPPDQGFDQRQO\EHLVVXHGRUUHLVVXHGZKHQDOOEDQNVDUHLGOHDQGLQWKHSUHFKDUJHGVWDWHt53LVVDWLVILHGDQGQRGDWDEXUVWVDUHLQ
SURJUHVV7KHFRQWUROOHUPXVWZDLWWKHVSHFLILHGWLPHt05'EHIRUHLQLWLDWLQJDVXEVHTXHQWRSHUDWLRQVXFKDVDQ$&7,9$7(FRPPDQG7KHUHLVDOVR
DUHVWULFWLRQDIWHULVVXLQJDQ056FRPPDQGZLWKUHJDUGWRZKHQWKHXSGDWHGIXQFWLRQVEHFRPHDYDLODEOH7KLVSDUDPHWHULVVSHFLILHGE\t02'%RWK
tMRD and t02'SDUDPHWHUVDUHVKRZQLQ)LJXUHDQG9LRODWLQJHLWKHURIWKHVHUHTXLUHPHQWVZLOOUHVXOWLQXQVSHFLILHGRSHUDWLRQ
ZQ CALIBRATION
7KH=4&$/,%5$7,21FRPPDQGLVXVHGWRFDOLEUDWHWKH6'5$0RXWSXWGULYHUV521DQG2'7YDOXHV5TTRYHUSURFHVVYROWDJHDQGWHPSHUDWXUHSURYLGHGDGHGLFDWHG:”H[WHUQDOUHVLVWRULVFRQQHFWHGIURPWKH6'5$0uV=4EDOOWR9VV4
''56'5$0VQHHGDORQJHUWLPHWRFDOLEUDWH5ONDQG2'7DWSRZHUXS,1,7,$/,=$7,21DQG6(/)5()5(6+H[LWDQGDUHODWLYHO\VKRUWHUWLPHWRSHUIRUP
SHULRGLFFDOLEUDWLRQV''56'5$0GHILQHVWZR=4&$/,%5$7,21FRPPDQGV=4&$/,%5$7,21/21*=4&/DQG=4&$/,%5$7,216+257=4&6
$QH[DPSOHRI=4&$/,%5$7,21WLPLQJLVVKRZQLQ)LJXUH
$OOEDQNVPXVWEH35(&+$5*('DQGt53PXVWEHPHWEHIRUH=4&/RU=4&6FRPPDQGVFDQEHLVVXHGWRWKH6'5$01RRWKHUDFWLYLWLHVRWKHUWKDQDQRWKHU
=4&/RU=4&6FRPPDQGPD\EHLVVXHGWRWKH6'5$0FDQEHSHUIRUPHGRQWKH6'5$0DUUD\E\WKHFRQWUROOHUIRUWKHGXUDWLRQRI t=4,1,7RU t=423(5
7KHTXLHWWLPHRQWKH6'5$0DUUD\KHOSVDFFXUDWHO\FDOLEUDWH5ONDQG2'7$IWHU6'5$0FDOLEUDWLRQLVDFKLHYHGWKH6'5$0VKRXOGGLVDEOHWKH=4EDOOuV
FXUUHQWFRQVXPSWLRQSDWKWRUHGXFHRYHUDOOSRZHUXVDJH
=4&$/,%5$7,21FRPPDQGVFDQEHLVVXHGLQSDUDOOHOWR'//5(6(7DQGORFNLQJWLPH8SRQ6(/)5()5(6+H[LWDQH[SOLFLW=4&/LVUHTXLUHGLI=4&$/,%5$7,21LVGHVLUHG
,QGXDOUDQNV\VWHPGHVLJQVWKDWVKDUHWKH=4UHVLVWRUEHWZHHQGHYLFHVWKHFRQWUROOHUPXVWQRWDOORZRYHUODSRIt=4,17t=423(5RUt=4&6EHWZHHQUDQNV
LOGIC Devices Incorporated
www.logicdevices.com
102
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 56 - ZQ CALIBRATION TIMING (ZQCL AND ZQCS)
T0
T1
Ta0
Ta1
Ta2
Ta3
Tb0
Tb1
Tc0
Tc1
Tc2
ZQCL
NOP
NOP
NOP
Valid
Vali d
ZQCS
NOP
NOP
NOP
Valid
Address
Vali d
Vali d
Vali d
A10
Vali d
Vali d
Vali d
CK#
CK
Command
CKE
1
Vali d
Vali d
1
Vali d
ODT
2
Vali d
Vali d
2
Vali d
DQ
3
A ctivities
3
High-Z
Activities
High-Z
t ZQ INIT or t ZQ OPER
t ZQCS
Indicates a Break in
Time Scale
Don ’t Care
127(6
1.
&.(PXVWEHFRQWLQXRXVO\UHJLVWHUHG+,*+GXULQJWKHFDOLEUDWLRQSURFHGXUH
2.
2'7PXVWEHGLVDEOHGYLDWKH2'7VLJQDORUWKH056GXULQJWKHFDOLEUDWLRQSURFHGXUH
3.
$OOGHYLFHVFRQQHFWHGWRWKH'4EXVVKRXOGEH+LJK=GXULQJFDOLEUDWLRQ
ACTIVATE
%HIRUHDQ\5($'RU:5,7(FRPPDQGVFDQEHLVVXHGWRDEDQNZLWKLQWKH6'5$0D52:LQWKDWEDQNPXVWEHRSHQHG$&7,9$7('7KLVLVDFFRPSOLVKHG
YLDWKH$&7,9$7(FRPPDQGZKLFKVHOHFWVERWKWKH%$1.DQGWKH52:WREH$&7,9$7('
$IWHUD52:LVRSHQHGZLWKDQ$&7,9$7(FRPPDQGD5($'RU:5,7(FRPPDQGPD\EHLVVXHGWRWKDW52:VXEMHFWWRWKHt5&'VSHFLILFDWLRQ+RZHYHULI
WKHDGGLWLYHODWHQF\LVSURJUDPPHGFRUUHFWO\D5($'RU:5,7(FRPPDQGPD\EHLVVXHGSULRUWRt5&'0,1,QWKLVRSHUDWLRQWKH6'5$0HQDEOHVD5($'
RU:5,7(FRPPDQGWREHLVVXHGDIWHUWKH$&7,9$7(FRPPDQGIRUWKDWEDQNEXWSULRUWRt5&'0,1VHHv3267('&$6$'',7,9(/$7(1&<$/t5&'
0,1VKRXOGEHGLYLGHGE\WKHFORFNSHULRGDQGURXQGHGXSWRWKHQH[WZKROHQXPEHUWRGHWHUPLQHWKHHDUOLHVWFORFNHGJHDIWHUWKH$&7,9$7(FRPPDQGRQ
ZKLFKWKH5($'RU:5,7(FRPPDQGFDQEHHQWHUHG7KHVDPHSURFHGXUHLVXVHGWRFRQYHUWRWKHUVSHFLILFDWLRQOLPLWVIURPWLPHXQLWVWRFORFNF\FOHV
:KHQDWOHDVWRQHEDQNLVRSHQDQ\5($'WR5($'FRPPDQGGHOD\RU:5,7(WR:5,7(FRPPDQGGHOD\LVUHVWULFWHGWRt&&'0,1
$ VXEVHTXHQW $&7,9$7( FRPPDQG WR D GLIIHUHQW 52: LQ WKH VDPH %$1. FDQ RQO\ EH LVVXHG DIWHU WKH SUHYLRXV $&7,9( 52: KDV EHHQ FORVHG 35(&+$5*('7KHPLQLPXPWLPHLQWHUYDOEHWZHHQVXFFHVVLYH$&7,9$7(FRPPDQGVWRWKHVDPH%$1.LVGHILQHGE\t5&
$VXEVHTXHQW$&7,9$7(FRPPDQGWRDQRWKHU%$1.FDQEHLVVXHGZKLOHWKHILUVW%$1.LVEHLQJDFFHVVHGZKLFKUHVXOWVLQDUHGXFWLRQRIWRWDO52:$&&(66
RYHUKHDG7KHPLQLPXPWLPHLQWHUYDOEHWZHHQVXFFHVVLYH$&7,9$7(FRPPDQGVPD\EHLVVXHGLQDJLYHQt)$:0,1SHULRGDQGWKHt55'0,1UHVWULFWLRQ
VWLOODSSOLHV7KHt)$:0,1SDUDPHWHUDSSOLHVUHJDUGOHVVRIWKHQXPEHURI%$1.6DOUHDG\RSHQHGRUFORVHG
LOGIC Devices Incorporated
www.logicdevices.com
103
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 57 - EXAMPLE: MEETING tRRD (MIN) AND tRCD (MIN)
T0
T1
T2
T3
T4
T5
T8
T9
T10
T11
Command
ACT
NOP
NOP
ACT
NOP
NOP
NOP
NOP
NOP
RD/WR
Add ress
Row
BA[2:0]
Bank x
CK#
CK
Row
Col
Bank y
Bank y
t RRD
t RCD
Indicates a Break in
Time Scale
Don ’t Care
FIGURE 58 - EXAMPLE: tFAW
CK#
T0
T1
T4
T5
T8
T9
T10
T11
T19
T20
ACT
NOP
ACT
NOP
A CT
NOP
ACT
NOP
NOP
A CT
CK
Command
Add ress
BA[2:0]
Row
Bank a
Row
Row
Row
Row
Bank b
Bank c
Bank d
Bank ye
t RRD
t FAW
Indicates a Break in
Time Scale
LOGIC Devices Incorporated
www.logicdevices.com
104
Don ’t Care
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
READ
5($'EXUVWVDUHLQLWLDWHGZLWKD5($'FRPPDQG7KHVWDUWLQJ&2/801DQG%$1.DGGUHVVHVDUHSURYLGHGZLWKWKH5($'FRPPDQGDQG $87235(&+$5*(LVHLWKHUHQDEOHGRUGLVDEOHGIRUWKDWEXUVWDFFHVV,I$87235(&+$5*(LVHQDEOHGWKH52:EHLQJDFFHVVHGLVDXWRPDWLFDOO\35(&+$5*('DW
WKHFRPSOHWLRQRIWKHEXUVWVHTXHQFH,I$87235(&+$5*(LVGLVDEOHGWKH52:ZLOOEHOHIWRSHQDIWHUWKHFRPSOHWLRQRIWKHEXUVW
'XULQJ5($'EXUVWVWKHYDOLGGDWDRXWHOHPHQWIURPWKHVWDUWLQJFROXPQDGGUHVVLVDYDLODEOHDW5($'/$7(1&<5/FORFNVODWHU5/LVGHILQHGDVWKHVXP
RI3267('&$6$'',7,9(/$7(1&<$/DQG&$6/$7(1&<&/5/ $/&/7KHYDOXHRI$/DQG&/LVSURJUDPPDEOHLQWKHPRGHUHJLVWHUYLDWKH
056FRPPDQG(DFKVXEVHTXHQWGDWDRXWHOHPHQWZLOOEHYDOLGQRPLQDOO\DWWKHQH[WSRVLWLYHRUQHJDWLYHFORFNHGJHWKDWLVDWWKHQH[WFURVVLQJRI&.DQG
&.?)LJXUHVKRZVDQH[DPSOHRI5/EDVHGRQD&/VHWWLQJRIDVZHOODV$/ FIGURE 59 - READ LATENCY
T0
T7
T8
T9
T10
T11
T12
T12
Command
READ
NOP
NOP
NOP
NOP
NOP
NOP
NOP
Add ress
Bank a,
Col n
CK#
CK
CL = 8, AL = 0
DQS, DQS#
DO
n
DQ
Indicates a Break in
Time Scale
Notes:
Don ’t Care
1. DO n = data-out from column n.
2. Subsequent elements of data-out appear in the programmed order following DO
. n.
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35(&+$5*(FRPPDQGIROORZHGE\DQRWKHU35(&+$5*(FRPPDQGWR
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RWKHUFRPPDQGVKDYHEHHQLQLWLDWHGWKH'4ZLOOJR+,*+=$GHWDLOHG
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'DWDIURPDQ\5($'EXUVWPD\EHFRQFDWHQDWHGZLWKGDWDIURPDVXEVHTXHQW5($'FRPPDQGWRSURYLGHDFRQWLQXRXVIORZRIGDWD7KHILUVWGDWD
HOHPHQWIURPWKHQHZEXUVWIROORZVWKHODVWHOHPHQWRIDFRPSOHWHGEXUVW
7KH QHZ 5($' FRPPDQG VKRXOG EH LVVXHG t&&' F\FOHV DIWHU WKH ILUVW
5($'FRPPDQG7KLVLVVKRZQIRU%/LQ)LJXUH,I%&LVHQDEOHG
t&&'PXVWVWLOOEHPHWZKLFKZLOOFDXVHDJDSLQWKHGDWDRXWSXWDVVKRZQ
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6'5$0VGRQRWDOORZLQWHUUXSWLQJRUWUXQFDWLQJDQ\5($'EXUVW
,I$LV+,*+ZKHQD5($'FRPPDQGLVLVVXHGWKH5($'ZLWK$872
35(&+$5*( IXQFWLRQ LV HQJDJHG 7KH 6'5$0 VWDUWV DQ $872 35(&+$5*(RSHUDWLRQRQWKHULVLQJHGJHZKLFKLV$/t573F\FOHVDIWHUWKH
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WKH$87235(&+$5*(RSHUDWLRQZLOOEHGHOD\HGXQWLOt5$60,1LVVDWLVILHG,QFDVHWKHLQWHUQDO35(&+$5*(RSHUDWLRQLVSXVKHGRXWE\t573
t53VWDUWVDWWKHSRLQWDWZKLFKWKHLQWHUQDO35(&+$5*(KDSSHQV7KH
WLPH IURP 5($' ZLWK $872 35(&+$5*( WR WKH QH[W $&7,9$7( FRPPDQGWKHVDPHEDQNLV$/t573t53ZKHUHvwPHDQVURXQGHGXS
WRWKHQH[WLQWHJHU,QDQ\HYHQWLQWHUQDO5(&+$5*(GRHVQRWVWDUWHDUOLHU
WKDQIRXUFORFNVDIWHUWKHODVWQELWSUHIHWFK
'DWDIURPDQ\5($'EXUVWPXVWEHFRPSOHWHGEHIRUHDVXEVHTXHQW:5,7(
EXUVWLVDOORZHG$QH[DPSOHRID5($'EXUVWIROORZHGE\D:5,7(EXUVW
IRU %/ LV VKRZQ LQ )LJXUH 7R HQVXUH WKH 5($' GDWD LV FRPSOHWHG
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LV5/t&&'y:/t&.
LOGIC Devices Incorporated
Transitioning Data
www.logicdevices.com
105
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
Bank,
Col n
Add ress 2
DQ3
DQS, DQS#
REA D
T0
Command 1
CK
CK#
Notes:
NOP
T1
1.
2.
3.
4.
106
RL = 5
NOP
T3
Bank,
Col b
REA D
T4
t RPRE
NOP
T5
DO
n
DO
n+1
NOP
T6
DO
n+3
RL = 5
DO
n+2
DO
n+4
NOP
T7
DO
n+5
DO
n+6
NOP
T8
DO
n+7
NOP
T9
DO
b
DO
b+1
DO
b+2
NOP
T10
DO
b+3
DO
b+4
NOP
T11
DO
b+5
NOP
T12
DO
b+7
Transitioning Data
DO
b+6
t RPST
NOP
T13
Don ’t Care
NOP
T14
NOP commands are shown for ease of illustration; other commands may be valid at these times.
The BL8 setting is activated by either MR0[1:0] = 00 or MR0[1:0] = 01 and A12 = 1 during READ command at T0 and T4.
DO n (or b) = data-out from column n (or column b).
BL8, RL = 5 (CL = 5, AL = 0).
t CCD
NOP
T2
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 60 - Consecutive READ Bursts (BL8)
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
Bank,
Col n
Address 2
DQ3
DQS, DQS#
READ
T0
Comman d 1
CK
CK#
Notes:
NOP
T1
1.
2.
3.
4.
RL = 5
NOP
T3
Bank,
Col b
READ
T4
t RPRE
NOP
T5
DO
n
DO
n+1
NOP
T6
RL = 5
DO
n+2
DO
n+3
t RPST
NOP
T7
NOP
T8
t RPRE
NOP
T9
DO
b
DO
b+1
NOP
T10
DO
b+2
DO
b+3
t RPST
NOP
T11
NOP
T13
Transitioning Data
NOP
T12
Don ’t Care
NOP
T14
NOP commands are shown for ease of illustration; other commands may be valid at these times.
The BC4 setting is activated by either MR0[1:0] = 10 or MR0[1:0] = 01 and A12 = 0 during READ command at T0 and T4.
DO n (or b) = data-out from column n (or column b).
BC4, RL = 5 (CL = 5, AL = 0).
t CCD
NOP
T2
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 61 - Consecutive READ Bursts (BC4)
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
DQ
DQS, DQS#
READ
Bank a,
Col n
Add ress
T0
Command
CK
CK#
Notes:
NOP
T1
1.
2.
3.
4.
NOP
T2
CL = 8
NOP
T4
Bank a,
Col b
READ
T5
NOP
T6
NOP
T7
DO
n
NOP
T8
CL = 8
NOP
T9
NOP
T10
NOP
T11
NOP
T12
NOP
T13
DO
b
AL = 0, RL = 8.
DO n (or b) = data-out from column n (or column b).
Seven subsequent elements of data-out appear in the programmed order following DO n.
Seven subsequent elements of data-out appear in the programmed order following DO b.
NOP
T3
NOP
T14
NOP
T15
Transitioning Data
NOP
T16
Don ’t Care
NOP
T17
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 62 - Nonconsecutive READ Bursts
108
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
Bank,
Col n
Add ress 2
109
DQ3
DQS, DQS#
READ
T0
Command 1
CK
CK#
NOP
T2
NOP
T3
NOP
T4
NOP
T5
Notes:
DO
n
DO
n+1
DO
n+2
Bank,
Col b
WRITE
T6
DO
n+3
DO
n+4
NOP
T7
DO
n+5
NOP
T9
DO
n+7
t RPST
WL = 5
DO
n+6
NOP
T8
NOP
T10
t WPRE
DI
n
NOP
T11
DI
n+1
DI
n+2
NOP
T12
DI
n+3
DI
n+5
DI
n+6
NOP
T14
Transitioning Data
DI
n+4
t BL = 4 clocks
NOP
T13
Don ’t Care
DI
n+7
t WPST
t WTR
t WR
NOP
T15
1. NOP commands are shown for ease of illustration; other commands may be valid at these times.
2. The BL8 setting is activated by either MR0[1:0] = 00 or MR0[1:0] = 01 and A12 = 1 during the READ command at T0, and
the WRITE command at T6.
RL = 5
t RPRE
READ-to-WRITE command delay = RL + t CCD + 2t CK - WL
NOP
T1
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 63 - READ (BL8) to WRITE (BL8)
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
DQ3
DQS, DQS#
Add ress2
Command 1
CK
CK#
NOP
T1
NOP
T2
NOP
T3
WRITE
T4
Bank,
Col n
Notes:
1.
2.
3.
4.
110
DO
n
NOP
T5
DO
n +1
NOP
T7
DO
n+ 3
t RPST
WL = 5
DO
n +2
NOP
T6
NOP
T8
t WPRE
DI
n
NOP
T9
DI
n +1
DI
n +2
NOP
T10
DI
n +3
t WPST
t BL = 4 clo cks
NOP
T11
NOP
T12
T14
t WR
t WTR
NOP
Transitioning Data
NOP
T13
NOP
T15
Don ’t Care
NOP commands are shown for ease of illustration; other commands may be valid at these times.
The BC4 OTF setting is activated by MR0[1:0] and A12 = 0 during READ command at T0 and WRITE command at T4.
DO n = data-out from column n; DI n = data-in from column b.
BC4, RL = 5 (AL - 0, CL = 5), WL = 5 (AL = 0, CWL = 5).
RL = 5
t RPRE
Bank,
Col b
READ-to-WRITE command delay = RL + t CC D/2 + 2 t CK - WL
READ
T0
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 64 - READ (BC4) to WRITE (BC4) OTF
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
Bank,
Col n
Add ress 2
DQ3
DQS, DQS#
READ
T0
Command 1
CK
CK#
NOP
T2
NOP
T3
NOP
T4
NOP
T5
Notes:
111
DO
n
DO
n+1
DO
n+2
Bank,
Col b
WRITE
T6
DO
n+3
DO
n+4
NOP
T7
DO
n+5
NOP
T9
DO
n+7
t RPST
WL = 5
DO
n+6
NOP
T8
NOP
T10
t WPRE
DI
n
NOP
T11
DI
n+1
DI
n+2
NOP
T12
DI
n+3
DI
n+5
DI
n+6
NOP
T14
Transitioning Data
DI
n+4
t BL = 4 clocks
NOP
T13
Don ’t Care
DI
n+7
t WPST
t WTR
t WR
NOP
T15
1. NOP commands are shown for ease of illustration; other commands may be valid at these times.
2. The BL8 setting is activated by either MR0[1:0] = 00 or MR0[1:0] = 01 and A12 = 1 during the READ command at T0, and
the WRITE command at T6.
3. DO n = data-out from column, DI b = data-in for column b.
4. BL8, RL = 5 (AL = 0, CL = 5), WL = 5 (AL = 0, CWL = 5).
RL = 5
t RPRE
READ-to-WRITE command delay = RL + t CCD + 2t CK - WL
NOP
T1
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 65 - READ to PRECHARGE (BL8)
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
112
DQ
DQS, DQS#
READ
Bank a,
Col n
Add ress
T0
Command
CK
C K#
NOP
T1
t RTP
t RAS
NOP
T2
NOP
T3
NOP
T4
Bank a,
(or all)
PRE
T5
NOP
T6
NOP
T7
NOP
T8
DO
n
DO
n+1
DO
n+2
t RP
NOP
T9
DO
n+3
NOP
T10
NOP
T11
NOP
T12
Bank a,
Row b
ACT
T13
NOP
T14
NOP
T15
Transitioning Data
NOP
T16
Don ’t Care
NOP
T17
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 66 - READ to PRECHARGE (BC4)
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
LOGIC Devices Incorporated
www.logicdevices.com
RL = AL + CL = 11
CL = 6
AL = 5
DQ
DQS, DQS#
CK
Command
BC4
CK#
T0
ACTIVE n
T1
READ n
t RCD (MIN)
T2
NOP
T6
NOP
T11
NOP
T12
NOP
Indicates a Break in
Time Scale
DO
n
DO
n+1
T13
NOP
DO
n+2
Transitioning Data
DO
n+3
T14
NOP
Don’t Care
Figure 67 - READ to PRECHARGE (AL = 5, CL = 6)
113
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
DQ
DQS, DQS#
READ
Bank a,
Col n
Add ress
T0
Command
CK
CK#
NOP
T1
AL = 4
NOP
T2
NOP
T3
NOP
T4
NOP
T5
t RAS (MIN)
t RTP (MIN)
NOP
T6
CL = 6
NOP
T7
NOP
T8
NOP
T9
NOP
T10
DO
n
DO
n+1
DO
n+2
NOP
T11
114
Indicates A Break in
Time Scale
DO
n+3
NOP
T12
NOP
T13
Transitioning Data
t RP
NOP
Don ’t Care
Bank a,
Row b
ACT
Ta0
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 68 - READ with Auto Precharge (AL = 4, CL = 6)
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
READ
$'46[WR'4RXWSXWWLPLQJLVVKRZQLQ)LJXUH7KH'4WUDQVLWLRQVEHWZHHQYDOLGGDWDRXWSXWVPXVWEHZLWKLQt'464RIWKHFURVVLQJSRLQWRI/>[email protected]'46[
/>[email protected]'46[?'46PXVWDOVRPDLQWDLQDPLQLPXP+,*+DQG/2:WLPHRIt46+DQGt46/3ULRUWRWKH5($'SUHDPEOHWKH'4EDOOVZLOOHLWKHUEHIORDWLQJRU
WHUPLQDWHGGHSHQGLQJRQWKHVWDWXVRIWKH2'7VLJQDO
)LJXUHVKRZVWKHVWUREHWRFORFNWLPLQJGXULQJD5($'7KHFURVVLQJSRLQW'46['46[?PXVWWUDQVLWLRQZLWK”t'46&.RIWKHFORFNFURVVLQJSRLQW7KH
GDWDRXWKDVQRWLPLQJUHODWLRQVKLSWRFORFNRQO\WR'46DVVKRZQLQ)LJXUH
)LJXUHDOVRVKRZVWKH5($'SUHDPEOHDQGSRVWDPEOH1RUPDOO\ERWK'46[DQG'46[?DUH+,*+=WRVDYHSRZHU9DD43ULRUWRGDWDRXWSXWIURPWKH
6'5$0'46[LVGULYHQ/2:DQG'46[?GULYHQ+,*+IRUt535(7KLVLVNQRZQDVWKH5($'SUHDPEOH
7KH5($'SRVWDPEOHt5367LVRQHKDOIFORFNIURPWKHODVW/>[email protected]'46[/>[email protected]'46[?WUDQVLWLRQ'XULQJWKH5($'SRVWDPEOH/>[email protected]'46[LVGULYHQ/2:DQG/>[email protected]
'46[?GULYHQ+,*+:KHQFRPSOHWHWKH'4ZLOOHLWKHUEHGLVDEOHGRUZLOOFRQWLQXHWHUPLQDWLQJGHSHQGLQJRQWKHVWDWHRIWKH2'7VLJQDO)LJXUHGHPRQVWUDWHVKRZWRPHDVXUHt5367
LOGIC Devices Incorporated
www.logicdevices.com
115
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
116
Notes:
All DQ collectively
DQ3 (first data no lon ger valid)
DQ3 (last data valid)
1.
2.
3.
4.
5.
6.
7.
Bank,
Col n
Add ress 2
DQS, DQS#
READ
T0
Command 1
CK
CK#
NOP
T2
RL = AL + CL
NOP
T3
t RPRE
t DQSQ (MAX)
t LZ (DQ) MIN
NOP
T4
Data valid
DO
n
DO
n
t QH
DO
n
NOP
T5
t DQSQ (MAX)
NOP
T7
NOP
T8
t RPST
NOP
T9
DO
n+1
DO
n+2
Data valid
DO
n+3
DO
n+4
DO
n+5
DO
n+7
Transitioning Data
DO
n+6
t QH
DO
DO
DO
DO
DO
DO
DO
n+1
n+2
n+3
n+4
n+5
n+6
n+7
DO
DO
DO
DO
DO
DO
DO
n+3
n+1
n+2
n+4
n+5
n+6
n+7
NOP
T6
Don ’t Care
t HZ (DQ) MAX
NOP
T10
NOP commands are shown for ease of illustration; other commands may be valid at these times.
The BL8 setting is activated by either MR0[1, 0] = 0, 0 or MR0[0, 1] = 0, 1 and A12 = 1 during READ command at T0.
DO n = data-out from column n.
BL8, RL = 5 (AL = 0, CL = 5).
Output timings are referenced to VCCQ/2 and DLL on and locked.
t DQSQ defines the skew between DQS, DQS# to data and does not define DQS, DQS# to clock.
Early data transitions may not always happen at the same DQ. Data transitions of a DQ can vary (either early or late)
within a burst.
NOP
T1
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 69 - Data Output Timing – tDQSQ and Data Valid Window
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
OUTPUT TIMING
t+=DQG t/=WUDQVLWLRQVRFFXULQWKHVDPHDFFHVVWLPHDVYDOLGGDWDWUDQVLWLRQV7KHVHSDUDPHWHUVDUHUHIHUHQFHGWRDVSHFLILFYROWDJHOHYHOZKLFKVSHFLILHV
ZKHQWKHGHYLFHRXWSXWLVQRORQJHUGULYLQJt+='46DQGt+='4RUEHJLQVGULYLQJt/='46t/='4)LJXUHVKRZVDPHWKRGWRFDOFXODWHWKHSRLQW
ZKHQWKHGHYLFHLVQRWORQJHUGULYLQJ t+='46DQG t+='4RUEHJLQVGULYLQJ t/='46 t/='4E\PHDVXULQJWKHVLJQDODWWZRGLIIHUHQWYROWDJHV7KH
DFWXDOYROWDJHPHDVXUHPHQWSRLQWVDUHQRWFULWLFDODVORQJDVWKHFDOFXODWLRQLVFRQVLVWHQW7KHSDUDPHWHUVt/='46t/='4t+='46DQGt+='4DUH
GHILQHGDVVLQJOHHQGHG
LOGIC Devices Incorporated
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
DQS, DQS#
late strobe
DQS, DQS#
early strobe
CK#
CK
t LZ (DQS)MIN
118
t RPRE
t RPRE
Bit 0
Bit 0
t QSH
Bit 2
Bit 1
t QSL
t QSL
t QSL
Bit 2
t QSH
Bit 3
Bit 4
Bit 5
t QSL
Bit 4
Bit 5
Bit 6
Bit 7
t RPST
Bit 6
Bit 7
t RPST
t HZ (DQS) MAX
T5
t HZ (DQS) MIN
t DQSCK(MAX)
T4
t DQSCK(MIN)
t DQSCK(MAX)
T3
t DQSCK(MIN)
t DQSCK(MAX)
Bit 3
t QSH
T2
t DQSCK(MIN)
t DQSCK(MAX)
Bit 1
t QSH
T1
t DQSCK(MIN)
t LZ (DQS)MAX
T0
RL measured
to this point
T6
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 70 - Data Strobe Timing – READs
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
Figure 71 - Method for Calculating tLZ and tHZ
VOH - xmV
VTT + 2xmV
VOH - 2xmV
VTT + xmV
t LZ (DQS), t LZ (DQ)
t HZ (DQS), t HZ (DQ)
T2
T1
VOL + 2xmV
VTT - xmV
VOL + xmV
VTT - 2xmV
LOGIC Devices Incorporated
T2
t LZ (DQS),t LZ (DQ) begin point = 2 × T1 - T2
t HZ (DQS),t HZ (DQ) end point = 2 × T1 - T2
Notes:
T1
1. Within a burst, the rising strobe edge is not necessarily fixed at t DQSCK (MIN) or t DQSCK
(MAX). Instead, the rising strobe edge can vary between t DQSCK (MIN) and t DQSCK (MAX).
2. The DQS high pulse width is defined by t QSH, and the DQS low pulse width is defined by
t QSL. Likewise, t LZ (DQS) MIN and t HZ (DQS) MIN are not tied to t DQSCK (MIN) (early strobe
case) and t LZ (DQS) MAX and t HZ (DQS) MAX are not tied to t DQSCK (MAX) (late strobe
case); however, they tend to track one another.
3. The minimum pulse width of the READ preamble is defined by t RPRE (MIN). The minimum
pulse width of the READ postamble is defined by t RPST (MIN).
www.logicdevices.com
119
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 72 - tRPRE TIMING
CK
VTT
CK#
tA
tB
DQS
VTT
Single-ended signal, provided
as background information
tC
tD
VTT
DQS#
Single-ended signal, provided
as background information
T1
t RPRE begins
DQS - DQS#
t RPRE
0V
T2
t RPRE ends
Resultin g differential
signal relevant for
t RPRE specification
FIGURE 73 - tRPST TIMING
CK
VTT
CK#
tA
DQS
Single-ended signal, provided
as background information
VTT
tB
tC
tD
DQS#
VTT
Single-ended signal, provided
as background information
t RPST
DQS - DQS#
Resultin g differential
signal relevant for
t RPST specification
LOGIC Devices Incorporated
www.logicdevices.com
0V
T1
t RPST begins
120
T2
t RPST ends
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 74 - tWPRE TIMING
CK
VTT
CK#
T1
t WPRE begins
DQS - DQS#
0V
t WPRE
T2
t WPRE ends
Resulting differential
signal relevant for
t WPRE specification
FIGURE 75 - tWPST TIMING
CK
VTT
CK#
t WPST
DQS - DQS#
Resulting differential
signal relevant for
t WPST specification
LOGIC Devices Incorporated
www.logicdevices.com
0V
T1
t WPST begins
T2
t WPST ends
121
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
WRITE
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GDWDHOHPHQWVZLOOEHUHJLVWHUHGRQVXFFHVVLYHHGJHVRI'46[:5,7(/$7(1&<:/LVGHILQHGDVWKHVXPRI3267('&$6$'',7,9(/$7(1&<$/DQG
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8SRQFRPSOHWLRQRIDEXUVWDVVXPLQJQRRWKHUFRPPDQGVKDYHEHHQLQLWLDWHGWKH'4ZLOOUHPDLQ+,*+=DQGDQ\DGGLWLRQDOLQSXWGDWDZLOOEHLJQRUHG
'DWDIRUDQ\:5,7(EXUVWPD\EHFRQFDWHQDWHGZLWKDVXEVHTXHQW:5,7(FRPPDQGWRSURYLGHDFRQWLQXRXVIORZRILQSXWGDWD7KHQHZ:5,7(FRPPDQG
FDQEHt&&'FORFNVIROORZLQJWKHSUHYLRXV:5,7(FRPPDQG7KHILUVWGDWDHOHPHQWIURPWKHQHZEXUVWLVDSSOLHGDIWHUWKHODVWHOHPHQWRIDFRPSOHWHGEXUVW
)LJXUHVDQGVKRZFRQFDWHQDWHGEXUVWV$QH[DPSOHRIQRQFRQVHFXWLYH:5,7(6LVVKRZQLQ)LJXUH
'DWDIRUDQ\:5,7(EXUVWPD\EHIROORZHGE\DVXEVHTXHQW5($'FRPPDQGDIWHUt:75KDVEHHQPHWVHH)LJXUHVDQG
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%RWKt:75DQGt:5VWDUWLQJWLPHPD\YDU\GHSHQGLQJRQWKHPRGHUHJLVWHUVHWWLQJVIL[HG%&%/YV27)
LOGIC Devices Incorporated
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122
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 76 - WRITE BURST
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
WRITE
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command 1
WL = AL + CWL
Address 2
Bank,
Col n
t DQSS t DSH
t DSH
t DSH
t DSH
t WPRE
t DQSS(MIN)
t WPST
DQS, DQS#
t DQSH
t DQSL t DQSH
DI
n
DQ3
t DQSL t DQSH
DI
n+1
DI
n+2
t DQSL t DQSH
DI
n+3
t DSH
DI
n+4
t DQSL t DQSH
DI
n+5
t DSH
DI
n+6
t DQSL
DI
n+7
t DSH
t DSH
t WPRE
t DQSS(NOM)
t WPST
DQS, DQS#
t DQSH t DQSL
t DQSH
t DSS
DI
n
DQ3
t DQSL t DQSH
t DQSL t DQSH
t DQSL t DQSH
t DQSL
t DSS
t DSS
t DSS
t DSS
DI
n+1
DI
n+2
DI
n+3
DI
n+4
DI
n+5
DI
n+6
DI
n+7
t DQSS
t WPRE
t DQSS(MAX)
t WPST
DQS, DQS#
t DQSH
t DQSL t DQSH
t DSS
DI
n
DQ3
t DQSL t DQSH
t DSS
DI
n+1
t DQSL t DQSH
t DSS
DI
n+2
DI
n+3
t DQSL t DQSH
t DSS
DI
n+4
DI
n+5
t DQSL
t DSS
DI
n+6
DI
n+7
Transitioning Data
Notes:
LOGIC Devices Incorporated
Don ’t Care
1. NOP commands are shown for ease of illustration; other commands may be valid at these
times.
2. The BL8 setting is activated by either MR0[1:0] = 00 or MR0[1:0] = 01 and A12 = 1 during the
WRITE command at T0.
3. DI n = data-in for column n.
4. BL8, WL = 5 (AL = 0, CWL = 5).
5. t DQSS must be met at each rising clock edge.
6. t WPST is usually depicted as ending at the crossing of DQS, DQS#; however, t WPST actually
ends when DQS no longer drives LOW and DQS# no longer drives HIGH.
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123
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 77 - CONSECUTIVE WRITE (BL8) TO WRITE (BL8)
T0
T1
WRITE
NOP
T2
T3
T4
T5
T6
T7
T8
T9
T10
T11
T12
T13
NOP
NOP
WRITE
NOP
NOP
NOP
NOP
NOP
NOP
NOP
t BL = 4 clocks
NOP
NOP
T14
C K#
CK
Command 1
t CCD
NOP
t WR
t WTR
Add ress 2
Valid
Valid
t WPST
t WPRE
DQS, DQS#
DI
n
DQ3
DI
n+1
DI
n+2
DI
n+3
DI
n+4
DI
n+5
DI
n+6
DI
n+7
DI
b
DI
b+1
DI
b+2
DI
b+3
DI
b+4
DI
b+5
DI
b+6
DI
b+7
WL = 5
WL = 5
Transitioning Data
Notes:
Don ’t Care
1. NOP commands are shown for ease of illustration; other commands may be valid at these times.
2. The BL8 setting is activated by either MR0[1:0] = 00 or MR0[1:0] = 01 and A12 = 1 during the WRITE commands at
T0 and T4.
3. DI n (or b) = data-in for column n (or column b).
4. BL8, WL = 5 (AL = 0, CWL = 5).
FIGURE 78 - CONSECUTIVE WRITE (BC4) TO WRITE (BC4) VIA MRS OR OTF
T0
T1
WRITE
NOP
T2
T3
T4
T5
T6
T7
T8
T9
T10
NOP
NOP
WRITE
NOP
NOP
NOP
NOP
NOP
NOP
T11
T12
T13
NOP
NOP
NOP
T14
C K#
CK
Command 1
t CCD
t BL = 4 clo cks
NOP
t WR
t WTR
Address2
Vali d
Vali d
t WPRE
t WPST
t WPRE
t WPST
DQS, DQS#
DI
n
DQ3
DI
n+1
DI
n+2
DI
n+3
DI
b
DI
b+1
DI
b+2
DI
b+3
WL = 5
WL = 5
Transitioning Data
Notes:
LOGIC Devices Incorporated
1.
2.
3.
4.
Don ’t Care
NOP commands are shown for ease of illustration; other commands may be valid at these times.
BC4, WL = 5 (AL = 0, CWL = 5).
DI n (or b) = data-in for column n (or column b).
The BC4 setting is activated by MR0[1:0] = 01 and A12 = 0 during the WRITE command at T0 and T4.
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124
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 79 - NONCONSECUTIVE WRITE TO WRITE
T0
T1
T2
T3
T4
WRITE
NOP
NOP
NOP
NOP
T5
T6
T7
T8
T9
T10
T11
T12
T13
T14
T15
T16
T17
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
C K#
CK
C ommand
Add ress
NOP
WRITE
Vali d
NOP
NOP
NOP
Vali d
WL = C WL + AL = 7
WL = C WL + AL = 7
DQS, DQS#
DI
n
DQ
DI
n+1
DI
n+2
DI
n+3
DI
n+4
DI
n+5
DI
n+6
DI
n+7
DI
b
DI
b+1
DI
b+2
DI
b+3
DI
b+4
DI
b+5
DI
b+6
DI
b+7
DM
Transitioning Data
Notes:
1.
2.
3.
4.
Don't Care
DI n (or b) = data-in for column n (or column b).
Seven subsequent elements of data-in are applied in the programmed order following DO n.
Each WRITE command may be to any bank.
Shown for WL = 7 (CWL = 7, AL = 0).
FIGURE 80 - WRITE (BL8) TO READ (BL8)
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
WRITE
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
T11
Ta0
NOP
READ
CK#
CK
Command 1
t WTR 2
Add ress3
Vali d
Vali d
t WPRE
t WPST
DQS, DQS#
DI
n
DQ4
DI
n+1
DI
n+2
DI
n+3
DI
n+4
DI
n+5
DI
n+6
DI
n+7
WL = 5
Indicates a Break in
Time Scale
Notes:
LOGIC Devices Incorporated
Transitioning Data
Don ’t Care
1. NOP commands are shown for ease of illustration; other commands may be valid at these times.
2. t WTR controls the WRITE-to-READ delay to the same device and starts with the first rising clock edge after the last write
data shown at T9.
3. The BL8 setting is activated by either MR0[1:0] = 00 or MR0[1:0] = 01 and MR0[12] = 1 during the WRITE command at T0.
The READ command at Ta0 can be either BC4 or BL8, depending on MR0[1:0] and the A12 status at Ta0.
4. DI n = data-in for column n.
5. RL = 5 (AL = 0, CL = 5), WL = 5 (AL = 0, CWL = 5).
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High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
Vali d
Add ress3
DQ 4
DQS, DQS#
WRITE
T0
Command 1
CK
CK#
Notes:
126
NOP
T2
WL = 5
NOP
T3
NOP
T4
t WPRE
DI
n
NOP
T5
DI
n+1
DI
n+2
NOP
T6
DI
n+3
T8
NOP
Indicates a Break in
Time Scale
t WPST
NOP
T7
NOP
Transitioning Data
t WTR 2
T9
Don ’t Care
Vali d
READ
Ta0
1. NOP commands are shown for ease of illustrati on; other commands may be valid at these times.
2. t WTR controls the WRITE-to-READ delay to the same device and starts with the first rising clock edge after the last write
data shown at T7.
3. The fixed BC4 setting is activated by MR0[1:0] = 10 during the WRITE command at T0 and the READ command at Ta0.
4. DI n = data-in for column n.
5. BC4 (fixed), WL = 5 (AL = 0, CWL = 5), RL = 5 (AL = 0, CL = 5).
NOP
T1
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 81 - WRITE TO READ (BC4 MODE REGISTER SETTING)
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
Vali d
Add ress 3
DQ 4
DQS, DQS#
WRITE
T0
C ommand 1
CK
CK#
Notes:
NOP
T1
WL = 5
NOP
T3
NOP
T4
t WPRE
DI
n
NOP
T5
DI
n+1
DI
n+2
NOP
T6
DI
n+3
t WPST
t BL = 4 clo cks
NOP
T7
NOP
T8
NOP
T9
Indicates a Break in
Time Scale
t WTR 2
NOP
T10
Transitioning Data
NOP
T11
RL = 5
Don ’t Care
Vali d
READ
Tn
NOP commands are shown for ease of illustration; other commands may be valid at these times.
t WTR controls the WRITE-to -READ delay to the same device and starts after t BL.
The BC4 OTF setting is activated by MR0[1:0] = 01 and A 12 = 0 during the WRITE command at T0 and the READ command
at Tn.
4. DI n = data-in for column n.
5. BC4, RL = 5 (AL = 0, CL = 5), WL = 5 (AL = 0, CWL = 5).
1.
2.
3.
NOP
T2
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 82 - WRITE (BC4 OTF) TO READ (BC4 OTF)
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 83 - WRITE (BL8) TO PRECHARGE
CK#
T0
T1
T2
T3
T4
T5
T6
T7
WRITE
NOP
NOP
NOP
NOP
NOP
NOP
NOP
T8
T9
T10
T11
T12
Ta0
Ta1
NOP
NOP
NOP
NOP
NOP
NOP
PRE
CK
Command
Add ress
Vali d
Vali d
t WR
WL = AL + CWL
DQS, DQS#
DI
n
DQ BL8
DI
n+1
DI
n+2
DI
n+3
DI
n+4
DI
n+5
DI
n+6
DI
n+7
Indicates a Break in
Time Scale
Notes:
Transitioning Data
Don ’t Care
1. DI n = data-in from column n.
2. Seven subsequent elements of data-in are applie d in the programmed order following
DO n.
3. Shown for WL = 7 (AL = 0, CWL = 7).
FIGURE 84 - WRITE (BC4 MODE REGISTER SETTING) TO PRECHARGE
CK#
T0
T1
T2
T3
T4
T5
T6
T7
WRITE
NOP
NOP
NOP
NOP
NOP
NOP
NOP
T8
T9
T10
T11
T12
Ta0
Ta1
NOP
NOP
NOP
NOP
NOP
NOP
PRE
CK
Comman d
Add ress
Vali d
Vali d
t WR
WL = AL + CWL
DQS, DQS#
DI
n
DQ BC4
DI
n+ 1
DI
n+ 2
DI
n+ 3
Indicates a Break in
Time Scale
Notes:
LOGIC Devices Incorporated
Transitioning Data
Don ’t Care
1. NOP commands are shown for ease of illustration; other commands may be valid at these
times.
2. The write recovery time ( t WR) is referenced from the first rising clock edge after the last
write data is shown at T7. t WR specifies the last burst WRITE cycle until the PRECHARGE
command can be issued to the same bank.
3. The fixed BC4 setting is activated by MR0[ 1:0] = 10 during the WRITE command at T0.
4. DI n = data-in for column n.
5. BC4 (fixed), WL = 5, RL = 5.
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128
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 85 - WRITE (BC4 OTF) TO PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
WRITE
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
Tn
CK#
CK
Command 1
PRE
t WR2
Bank,
Col n
Add ress 3
Valid
t WPST
t WPRE
DQS, DQS #
DI
n
DQ4
DI
n+1
DI
n+2
DI
n+3
WL = 5
Indicates a Break In
Time Scale
Notes:
Transitioning Data
Don ’t Care
1. NOP commands are shown for ease of illustration; other commands may be valid at these
times.
2. The write recovery time ( t WR) is referenced from the rising clock edge at T9. t WR specifies
the last burst WRITE cycle until the PRECHARGE command can be issued to the same bank.
3. The BC4 setting is activated by MR0[1:0] = 01 and A12 = 0 during the WRITE command at T0.
4. DI n = data-in for column n.
5. BC4 (OTF), WL = 5, RL = 5.
DQ INPUT TIMING
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PXVWWUDQVLWLRQZLWKLQt&.RIWKHFORFNWUDQVLWLRQVDVOLPLWHGE\tDQSS.
$OOGDWDDQGGDWDPDVNVHWXSDQGKROGWLPLQJVDUHPHDVXUHGUHODWLYHWRWKH
'46['46[?FURVVLQJVQRWWKHFORFNFURVVLQJ
PHPRU\FRQWUROOHUDIWHUWKHODVWGDWDLVZULWWHQWRWKH6'5$0GXULQJWKH
:5,7(SRVWDPEOHt:367
'DWDVHWXSDQGKROGWLPHVDUHVKRZQLQ)LJXUH$OOVHWXSDQGKROGWLPHV
DUHPHDVXUHGIURPWKHFURVVLQJSRLQWVRI'46[DQG'46[?7KHVHVHWXS
DQGKROGYDOXHVSHUWDLQWRGDWDLQSXWDQGGDWDPDVNLQSXW
7KH:5,7(SUHDPEOHDQGSRVWDPEOHDUHDOVRVKRZQ2QHFORFNSULRUWR
GDWDLQSXWWRWKH6'5$0'46[PXVWEH+,*+DQG'46[?PXVWEH/2:
7KHQIRUDKDOIFORFN'46[LVGULYHQ/2:'46[?LVGULYHQ+,*+GXULQJ
WKH:5,7(SUHDPEOH t:35(OLNHZLVH'46[PXVWEHNHSW/2:E\WKH
$GGLWLRQDOO\WKHKDOISHULRGRIWKHGDWDLQSXWVWUREHLVVSHFLILHGE\ t'46+
and tDQSL.
FIGURE 86 - DATA INPUT TIMING
DQ S, DQS#
t WPRE
t DQSH
t WPST
t DQSL
DI
b
DQ
DM
t DS
t DH
Transitioning Data
LOGIC Devices Incorporated
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129
Don ’t Care
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
PRECHARGE
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WKHDUUD\%$1.
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DQGLVDXWRPDWLFDOO\HQDEOHGDQGUHVHWXSRQH[LWLQJ6(/)5()5(6+$OOSRZHUVXSSO\LQSXWVLQFOXGLQJ95()&$DQG95()'4PXVWEHPDLQWDLQHGDWYDOLG
OHYHOVXSRQHQWU\H[LWDQGGXULQJ6(/)5()5(6+PRGHRSHUDWLRQ95()'4PD\IORDWRUQRWGULYH9DD4ZKLOHLQWKH6(/)5()5(6+PRGHXQGHUFHUWDLQ
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7KH6'5$0PXVWEHLGOHZLWKDOO%$1.6LQWKH35(&+$5*(VWDWHt53LVVDWLVILHGDQGQREXUVWVDUHLQSURJUHVVEHIRUHD6(/)5()5(6+HQWU\FRPPDQG
FDQEHLVVXHG2'7PXVWDOVREHWXUQHGRIIEHIRUH6(/)5()5(6+HQWU\E\UHJLVWHULQJWKH2'7EDOO/2:SULRUWRWKH6(/)5()5(6+HQWU\FRPPDQGVHH
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LIWKHFORFNLVDOWHUHGGXULQJ6(/)5()5(6+PRGHWKHQt&.65(DQGt&.65;PXVWEHVDWLVILHG:KHQHQWHULQJ6(/)5()5(6+t&.65(PXVWEHVDWLVILHG
SULRUWRDOWHULQJWKHFORFNuVIUHTXHQF\3ULRUWRH[LWLQJ6(/)5()5(6+t&.65;PXVWEHVDWLVILHGSULRUWRUHJLVWHULQJ&.(+,*+
:KHQ&.(LV+,*+GXULQJ6(/)5()5(6+H[LW123RU'(6PXVWEHLVVXHGIRUt;6WLPHt;6LVUHTXLUHGIRUWKHFRPSOHWLRQRIDQ\LQWHUQDO5()5(6+WKDW
LVDOUHDG\LQSURJUHVVDQGPXVWEHVDWLVILHGEHIRUHDYDOLGFRPPDQGQRWUHTXLULQJDORFNHG'//FDQEHLVVXHGWRWKHGHYLFHt;6LVDOVRWKHHDUOLHVWWLPHWKDWD
6(/)5()5(6+UHHQWU\PD\RFFXUVHH)LJXUH%HIRUHDFRPPDQGUHTXLULQJDORFNHG'//FDQEHDSSOLHGD=4&/FRPPDQGPXVWEHLVVXHGt=423(5
WLPLQJPXVWEHPHWDQGt;6'//PXVWEHVDWLVILHG2'7PXVWEHRIIGXULQJt;6'//
LOGIC Devices Incorporated
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130
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 87 - SELF REFRESH ENTRY/EXIT TIMING
T0
T1
T2
Ta0
Tb0
Tc 0
Tc1
Td0
Te0
Tf0
Vali d
Vali d
CK#
CK
t CKSRX1
t CKSRE1
t IS
t IH
t CPDED
t IS
CKE
t CKESR (MIN)1
t IS
ODT2
Vali d
ODTL
RESET# 2
Command
SRE(REF)3
NOP
NOP 4
SRX (NOP)
NOP 5
Add ress
Vali d 6
Vali d 7
Vali d
Vali d
t XS 6 , 9
t RP 8
t XSDLL7, 9
Enter self refresh mode
(synchronous)
Exit self refresh mode
(asynchronous)
Indicates a Break in
Time Scale
Notes:
LOGIC Devices Incorporated
Don ’t Care
1. The clock must be valid and stable meeting t CK specifications at least t CKSRE after entering
self refresh mode, and at least t CKSRX prior to exiting self refresh mode, if the clock is
stopped or altered between states Ta0 and Tb0. If the clock remains valid and unchanged
from entry and during self refresh mode, then t CKSRE and t CKSRX do not apply; however,
t CKESR must be satisfied prior to exiting at SRX.
2. ODT must be disabled and R TT off prior to entering self re fresh at state T1. If both R TT_NOM
and RTT_WR are disabled in the mode registers, ODT can be a “Don’t Care.”
3. Self refresh entry (SRE) is synchronous via a REFRESH command with CKE LOW.
4. A NOP or DES command is required at T2 after the SRE command is issued prior to the
inputs becoming “Don’t Care.”
5. NOP or DES commands are required prior to exiting self refresh mode until state Te0.
6. t XS is required before any commands not requiring a locked DLL.
7. t XSDLL is required before any commands requiring a locked DLL.
8. The device must be in the all banks idle state prior to entering self refresh mode. For example, all banks must be precharged, t RP must be met, and no data bursts can be in progress.
9. Self refresh exit is asynchronous; however, t XS and t XSDLL timings start at the first rising
clock edge where CKE HIGH satisfies t ISXR at Tc1.t CKSRX timing is also measured so that
t ISXR is satisfied at Tc1.
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May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
EXTENDED TEMPERATURE USAGE
/2*,&'HYLFHV,QFL02'''56'5$0PRGXOHVXSSRUWVWKHRSWLRQDOH[WHQGHGWHPSHUDWXUHUDQJHXSWRd“&ZKLOHVXSSRUWLQJ6(/)5()5(6+$872
5()5(6+DQGVXSSRUW7$WHPSHUDWXUHV!“&d“&ZLWK0$18$/5()5(6+RQO\:KHQXVLQJ6(/)5()5(6+$8725()5(6+DQGWKHDPELHQW
WHPSHUDWXUHLV!“&657DQG$65RSWLRQVPXVWEHXVHG
7KHH[WHQGHGUDQJHWHPSHUDWXUHUDQJH6'5$0PXVWEH5()5(6+('H[WHUQDOO\DW;DQ\WLPHWKHDPELHQWWHPSHUDWXUHLV!“&7KHH[WHUQDO5()5(6+,1*UHTXLUHPHQWLVDFFRPSOLVKHGE\UHGXFLQJWKH5()5(6+3(5,2'IURPPVWRPV6(/)5()5(6+PRGHUHTXLUHVWKHXVHRI$65RU657WRVXSSRUW
WKHH[WHQGHGWHPSHUDWXUH
TABLE 63: SELF REFRESH TEMPERATURE AND AUTO SELF REFRESH DESCRIPTION
Field
MR2 Bits
6HOI5HIUHVK7HPSHUDWXUH657
SRT
Description
,I$65LVGLVDEOHG05>@ 657PXVWEHSURJUDPPHGWRLQGLFDWHt23(5GXULQJ6(/)5()5(6+
05>@ 1RUPDORSHUDWLQJWHPSHUDWXUHUDQJH“&WRd 85“&
05>@ ([WHQGHGRSHUDWLQJWHPSHUDWXUHUDQJH!“&WRd 105“&
,I$65LVHQDEOHG05>@ 657PXVWEHVHWWRHYHQLIWKHH[WHQGHGWHPSHUDWXUHUDQJHLVVXSSRUWHG
05>@ 657LVGLVDEOHG
$XWR6HOI5HIUHVK$65
6
ASR
:KHQ$65LVHQDEOHGWKH6'5$0DXWRPDWLFDOO\SURYLGHV6(/)5()5(6+SRZHUPDQDJHPHQWIXQFWLRQVUHIUHVKUDWH
IRUDOOVXSSRUWHGRSHUDWLQJWHPSHUDWXUHYDOXHV
05>@ $65LVHQDEOHG0PXVW :KHQ$65LVQRWHQDEOHGWKH657ELWPXVWEHSURJUDPPHGWRLQGLFDWHt23(5GXULQJ6(/)5()5(6+RSHUDWLRQ
05>@ $65LVGLVDEOHGPXVWXVHPDQXDO6(/)5()5(6+657
TABLE 64: SELF REFRESH MODE SUMMARY
MR2[6]
(ASR)
0
0
MR2[7]
(SRT)
Permitted Operating Temperature
Range for Self Refresh Mode
SELF REFRESH Operation
0
6(/)5()5(6+0RGHLVVXSSRUWHGLQWKHQRUPDOWHPSHUDWXUHUDQJH
1RUPDO“&WR“&
1
6(/)5()5(6+0RGHLVVXSSRUWHGLQQRUPDODQGH[WHQGHGd 95“&0$;
1RUPDODQGH[WHQGHG“&WR“&
WHPSHUDWXUHUDQJHV:KHQ657LVHQDEOHGLWLQFUHDVHVVHOIUHIUHVKSRZHU
FRQVXPSWLRQ
1
0
6HOIUHIUHVKPRGHLVVXSSRUWHGLQQRUPDODQGH[WHQGHGWHPSHUDWXUHUDQJHV
1RUPDODQGH[WHQGHG“&WR“&
6HOIUHIUHVKSRZHUFRQVXPSWLRQPD\EHWHPSHUDWXUHGHSHQGHQW
1
1
Illegal.
POWER-DOWN MODE
3RZHUGRZQLVV\QFKURQRXVO\HQWHUHGZKHQ&.(LVUHJLVWHUHG/2:FRLQFLGHQWZLWKD123RU'(6FRPPDQG&.(LVQRWDOORZHGWRJR/2:ZKLOHHLWKHUDQ
056035=4&$/5($'RU:5,7(RSHUDWLRQLVLQSURJUHVV&.(LVDOORZHGWRJR/2:ZKLOHDQ\RIWKHRWKHUOHJDORSHUDWLRQVDUHLQSURJUHVV+RZHYHUWKH
32:(5'2:1,DDVSHFLILFDWLRQVDUHQRWDSSOLFDEOHXQWLOVXFKRSHUDWLRQVKDYHEHHQFRPSOHWHG'HSHQGLQJRQWKHSUHYLRXV6'5$0VWDWHDQGWKHFRPPDQG
LVVXHGSULRUWR&.(JRLQJ/2:FHUWDLQWLPLQJFRQVWUDLQWVPXVWEHVDWLVILHGDVQRWHGLQ7DEOH7LPLQJGLDJUDPVGHWDLOLQJWKHGLIIHUHQW32:(5'2:1
PRGHHQWU\DQGH[LWVDUHVKRZQLQ)LJXUHWKURXJK)LJXUH
LOGIC Devices Incorporated
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132
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 65: COMMAND TO POWER-DOWN ENTRY PARAMETERS
Last Command prior
to CKE Low 1
Parameter (MIN)
Parameter Value
Figure
Idle or Active
$&7,9$7(
t$&73'(1
1t&.
Figure 95
Idle or Active
35(&+$5*(
t353'(1
1t&.
Figure 96
5($'RU5($'$3
t5'3'(1
RL = 4t&.t&.
Figure 91
:5,7(%/27)%/056%&27)
t:53'(1
:/t&.t:5t&.
Figure 92
:/t&.t:5t&.
Figure 92
:/t&.:5t&.
Figure 93
:/t&.:5t&.
Figure 93
5()5(6+
t5()3'(1
1t&.
Figure 94
5()5(6+
t;3'//
*UHDWHURIt&.RUQV
Figure 98
02'(5(*,67(56(7
t0563'(1
tMOD
)LJXUH
SDRAM
Status
Active
Active
:5,7(%&056
Active
:5,7($3%/27)%/056%&27)
Active
t:5$3'(1
:5,7($3%&056
Active
Idle
POWER-DOWN
Idle
(QWHULQJ32:(5'2:1PRGHGLVDEOHVWKHLQSXWDQGRXWSXWEXIIHUVH[FOXGLQJ&.&.?2'7&.(DQG5(6(7?123RU'(6FRPPDQGVDUHUHTXLUHGXQWLO
t&3'('KDVEHHQVDWLVILHGDWZKLFKWLPHDOOVSHFLILHGLQSXWRXWSXWEXIIHUVZLOOEHGLVDEOHG7KH'//VKRXOGEHLQDORFNHGVWDWHZKHQ32:(5'2:1LV
HQWHUHGIRUWKHIDVWHVWPRGHWLPLQJ,IWKH'//LVQRWORFNHGGXULQJWKH32:(5'2:1HQWU\WKH'//PXVWEHUHVHWDIWHUH[LWLQJ32:(5'2:1IRUSURSHU
5($'RSHUDWLRQDVZHOODVV\QFKURQRXV2'7RSHUDWLRQ
'XULQJ32:(5'2:1HQWU\LIDQ\EDQNUHPDLQVRSHQDIWHUDOOLQSURJUHVVFRPPDQGVDUHFRPSOHWHWKH6'5$0ZLOOEHLQ$&7,9(32:(5'2:1,IDOO
EDQNVDUHFORVHGDIWHUDOOLQSURJUHVVFRPPDQGVDUHFRPSOHWHWKH6'5$0ZLOOEHLQ35(&+$5*(32:(5'2:1PRGHRUIDVW(;,7PRGH:KHQHQWHULQJ
35(&+$5*(32:(5'2:1WKH'//LVWXUQHGRIILQVORZH[LWPRGHRUNHSWRQLQIDVW(;,7PRGH
7KH'//UHPDLQVRQZKHQHQWHULQJ$&7,9(32:(5'2:1DVZHOO2'7KDVVSHFLDOWLPLQJFRQVWUDLQWVZKHQVORZ(;,7PRGH35(&+$5*(32:(5
'2:1LVHQDEOHGDQGHQWHUHG5HIHUWRv$V\QFKURQRXV2'70RGHwIRUGHWDLOHG2'7XVDJHUHTXLUHPHQWVLQVORZ(;,7PRGH35(&+$5*(32:(5'2:1
$VXPPDU\RIWKHWZR32:(5'2:1PRGHVLVOLVWHGLQ7DEOH
:KLOHLQHLWKHU32:(5'2:1VWDWH&.(LVKHOG/2:5(6(7?LVKHOG+,*+DQGDVWDEOHFORFNVLJQDOPXVWEHPDLQWDLQHG2'7PXVWEHLQDYDOLGVWDWHEXW
DOORWKHULQSXWVLJQDOVDUHDv'RQuW&DUHw,I5(6(7?JRHV/2:GXULQJ32:(5'2:1WKH6'5$0ZLOOVZLWFKRXWRI32:(5'2:1DQGJRLQWRWKH5(6(7
VWDWH$IWHU&.(LVUHJLVWHUHG/2:&.(PXVWUHPDLQ/2:XQWLO t3'0,1KDVEHHQVDWLVILHG7KHPD[LPXPWLPHDOORZHGIRU32:(5'2:1GXUDWLRQLV
t3'0$;[W5(),
7KH32:(5'2:1VWDWHVDUHV\QFKURQRXVO\H[LWHGZKHQ&.(LVUHJLVWHUHG+,*+ZLWKDUHTXLUHG123RU'(6FRPPDQG&.(PXVWEHPDLQWDLQHG+,*+
until t&.(KDVEHHQVDWLVILHG$YDOLGH[HFXWDEOHFRPPDQGPD\EHDSSOLHGDIWHU32:(5'2:1(;,7/$7(1&<t;3t;3'//KDYHEHHQVDWLVILHG$VXPPDU\RIWKH32:(5'2:1PRGHVLVOLVWHGLQ7DEOH
TABLE 66: POWER-DOWN MODES
MR1[12]
DLL State
POWER-DOWN
exit
v'RQuW&DUHw
ON
)$67
t;3WRDQ\RWKHUYDOLG&200$1'
1
ON
)$67
t;3WRDQ\RWKHUYDOLG&200$1'
0
OFF
6/2:
SDRAM State
$&7,9(DQ\EDQNRSHQ
35(&+$5*(DOOEDQNV35(&+$5*('
Relevant Parameters
t;'//WR&200$1'6WKDWUHTXLUHWKH'//
WREHORFNHG5($'5'$32'721
t;3WRDQ\RWKHUYDOLG&200$1'
LOGIC Devices Incorporated
www.logicdevices.com
133
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 88 - ACTIVE POWER-DOWN ENTRY AND EXIT
T0
T1
T2
Ta0
Ta1
Ta2
Ta3
Ta4
NOP
NOP
NOP
Valid
CK#
CK
Command
t CK
t CH
t CL
NOP
Valid
NOP
t PD
t IS
CKE
Address
t IH
t IH
t IS
t CKE (MIN)
Valid
Valid
t CPDED
t XP
Enter power-down
mode
Exit power-down
mode
Indicates a Break in
Time Scale
Don’t Care
FIGURE 89 - PRECHARGE POWER-DOWN (FAST-EXIT MODE) ENTRY AND EXIT
T0
T1
T2
T3
T4
T5
NOP
NOP
Ta0
Ta1
NOP
Valid
CK#
CK
Co m m an d
t CK
t CH
t CL
NOP
NOP
t CPDED
t CKE (MIN)
t IH
t IS
tCKEmin
CKE
tCKEmin
t IS
t XP
t PD
Enter power-down
mode
Exit power-down
mode
Indicates a Break in
Time Scale
LOGIC Devices Incorporated
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134
Don’t Care
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 90 - PRECHARGE POWER-DOWN (SLOW-EXIT MODE) ENTRY AND EXIT
T0
T1
T2
T3
T4
Ta
Ta1
NOP
NOP
Tb
CK#
CK
t CK
Command
t CH
t CL
NOP
PRE
NOP
Valid 1
Valid 2
t CKE (MIN)
t CPDED
t XP
t IS
t IH
CKE
t IS
t XPDLL
t PD
Enter power-down
mode
Exit power-down
mode
Indicates a Break in
Time Scale
Notes:
Don’t Care
1. Any valid command not requiring a locked DLL.
2. Any valid command requiring a locked DLL.
FIGURE 91 - POWER-DOWN ENTRY AFTER READ OR READ WITH AUTO PRECHARGE (RDAP)
CK#
T0
T1
Ta0
Ta1
Ta2
Ta3
Ta4
Ta5
Ta6
READ/
RDAP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
Ta7
Ta8
Ta9
Ta10
Ta11
Ta12
CK
Command
NOP
t IS
NOP
t CPDED
CKE
Add ress
Vali d
t PD
RL = AL + CL
DQS, DQS#
DQ BL8
DQ BC4
DI
n
DI
DI
n+1 n+2
DI
n+3
DI
n
DI
n+1
DI
n+3
DI
n+2
DI
n+4
DI
n+ 5
DI
n+6
DI
n+7
t RDPDEN
Power- down or
self refresh entry
Indicates a break in
Time Scale
LOGIC Devices Incorporated
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135
Transitioning Data
Don ’t Care
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 92 - POWER-DOWN ENTRY AFTER WRITE
CK#
T0
T1
Ta0
Ta1
Ta2
Ta3
Ta4
Ta5
Ta6
Ta7
Tb0
WRITE
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
Tb1
Tb2
Tb3
Tb4
CK
Command
NOP
t IS
NOP
t CPDED
CKE
Add ress
Valid
t WR
WL = AL + CWL
t PD
DQS, DQS#
DQ BL8
DI
n
DI
DI
n+1 n+2
DI
n+3
DQ BC4
DI
n
DI
n+1
DI
n+3
DI
n+2
DI
n+4
DI
n+5
DI
n+6
DI
n+7
t WRPDEN
Power- down or
self refresh entry 1
Indicates A Break in
Time Scale
Transitioning Data
Don ’t Care
1. CKE can go LOW 2 tCK earlier if BC4MRS.
Notes:
FIGURE 93 - POWER-DOWN ENTRY AFTER WRITE WITH AUTO PRECHARGE (WRAP)
CK#
T0
T1
Ta0
Ta1
Ta2
Ta3
Ta4
Ta5
Ta6
Ta7
Tb0
Tb1
Tb2
WRAP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
Tb3
Tb4
CK
Command
t IS
t CPDED
CKE
Add ress
Vali d
A10
WR1
WL = AL + CWL
t PD
DQS, DQS#
DQ BL8
DI
n
DI
n+1
DI
n+2
DI
DI
n+3 n+4
DQ BC4
DI
n
DI
n+1
DI
n+2
DI
n+3
DI
n+5
DI
n+6
DI
n+7
t WRAPDEN
Start internal
pre char ge
Power- down or
self refresh entry 2
Indicates a Break in
Time Scale
Notes:
LOGIC Devices Incorporated
Transitioning Data
Don ’t Care
is programmed through MR0[11:9] and represents t WR (MIN)ns/ t CK rounded up to the
next integer t CK.
2. CKE can go LOW 2 tCK earlier if BC4MRS.
1.
t WR
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High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 94 - REFRESH TO POWER-DOWN ENTRY
T0
T1
T2
T3
NOP
NOP
Ta0
Ta1
Ta2
Tb0
NOP
NOP
Valid
CK#
CK
t CK
Command
t CH
t CL
REFRESH
t CPDED
t CKE (MIN)
t PD
t IS
CKE
t XP (MIN)
t REFPDEN
t RFC (MIN)1
Indicates a Break In
Time Scale
Notes:
Don’t Care
1. After CKE goes HIGH during t RFC, CKE must remain HIGH until t RFC is satisfied.
FIGURE 95 - ACTIVATE TO POWER-DOWN ENTRY
T0
T1
T2
T3
T4
T5
T6
T7
CK#
CK
Command
Address
t CK
t CH
t CL
ACTIVE
NOP
NOP
Valid
t CPDED
t IS
t PD
CKE
t ACTPDEN
tCKE
Don’t Care
LOGIC Devices Incorporated
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High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 96 - PRECHARGE TO POWER-DOWN ENTRY
T0
T1
T2
T3
NOP
NOP
T4
T5
T6
T7
CK#
CK
t CK
Command
t CH
t CL
PRE
All/single
bank
Address
t CPDED
t IS
t PD
CKE
t PREPDEN
Don’t Care
FIGURE 97 - MRS COMMAND TO POWER-DOWN ENTRY
T0
T1
T2
Ta0
Ta1
Ta2
Ta3
Ta4
CK#
CK
t CK
Command
MRS
Address
Valid
t CH
NOP
t CL
t CPDED
NOP
NOP
NOP
NOP
t PD
t MRSPDEN
t IS
CKE
Indicates a Break in
Time Scale
LOGIC Devices Incorporated
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138
Don’t Care
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 98 - POWER-DOWN EXIT TO REFRESH TO POWER-DOWN ENTRY
T0
T1
T2
T3
T4
Ta0
Ta1
Tb0
NOP
REFRESH
NOP
NOP
CK#
CK
Command
t CK
NOP
t CH
t CL
NOP
NOP
t CPDED
t XP1
t IH
t IS
CKE
t IS
t PD
t XPDLL2
Enter power-down
mode
Exit power-down
mode
Enter power-down
mode
Indicates a Break in
Time Scale
Notes:
Don’t Care
1. t XP must be satisfied before issuing the command.
2. t XPDLL must be satisfied (referenced to the registration of power-down exit) before the
next power-down can be entered.
RESET
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5(6(7?LVGULYHQ/2:LWPXVWUHPDLQ/2:IRUQV'XULQJWKLVWLPHWKHRXWSXWVDUHGLVDEOHG2'75TTWXUQVRII+,*+=DQGWKH''56'5$0UHVHWV
LWVHOI&.(VKRXOGEHEURXJKW/2:SULRUWR5(6(7?EHLQJGULYHQ+,*+$IWHU5(6(7?JRHV+,*+WKH6'5$0PXVWEHUHLQLWLDOL]HGDVWKRXJKDQRUPDO
SRZHUXSZHUHH[HFXWHGVHH)LJXUH$OOUHIUHVKFRXQWHUVRQWKH6'5$0DUH5(6(7DQGGDWDVWRUHGLQWKH6'5$0LVDVVXPHGXQNQRZQDIWHU5(6(7?
KDVEHHQGULYHQ/2:
LOGIC Devices Incorporated
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139
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 99 - RESET SEQUENCE
System RESET
(warm boot)
Sta ble an d
vali d clo ck
T1
T0
Tc0
Tb0
Ta0
t CK
Td0
CK#
CK
t CL
t CL
T (MIN) =
MAX (10ns, 5 t CK)
T = 100ns (MIN)
RESET#
t IOZ
T=10ns (MIN)
t IS
Vali d
CKE
ODT
Vali d
Vali d
Vali d
Vali d
ZQ CL
Vali d
t IS
MRS
MRS
MRS
MRS
Add ress
Code
Code
Code
Code
A10
Code
Code
Code
Code
BA0 = L
BA1 = H
BA2 = L
BA0 = H
BA1 = H
BA2 = L
BA0 = H
BA1 = L
BA2 = L
BA0 = L
BA1 = L
BA2 = L
Command
NOP
DM
BA[2:0]
DQS
DQ
RTT
A10 = H
Vali d
Vali d
High-Z
High-Z
High-Z
t MRD
t MRD
t XPR
T = 500μs (MIN)
MR2
All voltage
supplies valid
and stable
Vali d
MR3
DRAM rea dy
for external
commands
t MRD
MR1 with
DLL ENABLE
t MOD
MR0 with
DLL RESET
ZQ CAL
t ZQ INIT
t DLLK
Normal
operation
Indicates a Break in
Time Scale
LOGIC Devices Incorporated
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140
Don ’t Care
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ON-DIE TERMINATION (ODT)
FUNCTIONAL REPRESENTATION OF ODT
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8'0[IRUWKHIRXUZRUGVFRQWDLQHGLQ/',uV''5L02'
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LQ 6(/) 5()5(6+ PRGH PXVW EH WXUQHG RII SULRU WR 6(/) 5()5(6+
HQWU\RULIPRGHUHJLVWHUV05DQG05DUHSURJUDPPHGWRGLVDEOH2'7
2'7LVFRPSULVHGRIQRPLQDO2'7DQGG\QDPLF2'7PRGHVDQGHLWKHURI
WKHVHFDQIXQFWLRQLQV\QFKURQRXVRUDV\QFKURQRXVPRGHVZKHQWKH'//
LVRIIGXULQJ35(&+$5*(32:(5'2:1RUZKHQWKH'//LVV\QFKURQL]LQJ 1RPLQDO 2'7 LV WKH EDVH WHUPLQDWLRQ DQG LV XVHG LQ DQ\ DOORZDEOH
2'7VWDWH'\QDPLF2'7LVDSSOLHGRQO\GXULQJ:5,7(VDQGSURYLGHV27)
VZLWFKLQJIURPQR5TT or RTT_NOM to RTTB:5
7KH 2'7 IHDWXUH LV GHVLJQHG WR LPSURYH VLJQDO LQWHJULW\ RI WKH PHPRU\
DUUD\VXEV\VWHP E\ HQDEOLQJ WKH ''5 PHPRU\ FRQWUROOHU WR LQGHSHQGHQWO\ WXUQ RQ RU RII WKH 6'5$06 LQWHUQDO WHUPLQDWLRQ UHVLVWDQFH IRU DQ\
JURXSLQJRI6'5$0GHYLFHV7KH2'7IHDWXUHLVQRWVXSSRUWHGGXULQJ'//
GLVDEOHPRGH$VLPSOHIXQFWLRQDOUHSUHVHQWDWLRQRIWKH6'5$02'7IHDWXUHLVVKRZQLQ)LJXUH7KHVZLWFKLVHQDEOHGE\WKHLQWHUQDO2'7FRQWUROORJLFZKLFKXVHVWKHH[WHUQDO2'7EDOODQGRWKHUFRQWUROLQIRUPDWLRQ
7KH DFWXDO HIIHFWLYH WHUPLQDWLRQ 5TTB()) PD\ EH GLIIHUHQW IURP WKH 5TT
WDUJHWHGGXHWRQRQOLQHDULW\RIWKHWHUPLQDWLRQ)RU5TTB())YDOXHVDQG
FDOFXODWLRQVVHHv2'7&KDUDFWHULVWLFVw
FIGURE 100 - ON-DIE TERMINATION
NOMINAL ODT
2'7 120 LV WKH EDVH WHUPLQDWLRQ UHVLVWDQFH IRU HDFK DSSOLFDEOH EDOO
HQDEOHGRUGLVDEOHGYLD05>@VHH)LJXUHDQGLWLVWXUQHGRQRU
RIIYLDWKH2'7EDOO
ODT
To other
circuitry
such as
RCV,
...
VDDQ/2
RTT
Switch
DQ, DQS, DQS#,
DM
TABLE 67: POWER-DOWN MODES
MR1[9,6,2]
SDRAM Termination State
SDRAM State
Notes
000
ODT Pin
0
RTTB120GLVDEOHG2'72))
$Q\YDOLG
1,2
000
1
RTTB120GLVDEOHG2'721
$Q\YDOLGH[FHSW6(/)5()5(6+5($'
1,3
000-101
0
RTTB120HQDEOHG2'72))
$Q\YDOLG
1,2
000-101
1
RTTB120HQDEOHG2'721
$Q\YDOLGH[FHSW6(/)5()5(6+5($'
1,3
110 and 111
;
RTTB120UHVHUYHG2'721RU2))
Illegal
127(6
1.
$VVXPHVG\QDPLF2'7LVGLVDEOHG
2.
2'7LVHQDEOHGDQGDFWLYHGXULQJPRVW:5,7(6IRUSURSHUWHUPLQDWLRQ
3.
2'7PXVWEHGLVDEOHGGXULQJ5($'V7KHRTTB120YDOXHLVUHVWULFWHG
GXULQJ:5,7(6'\QDPLF2'7LVDSSOLFDEOHLIHQDEOHG
EXWLWLVQRWLOOHJDOWRKDYHLWRIIGXULQJ:5,7(6
LOGIC Devices Incorporated
www.logicdevices.com
141
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
NOMINAL ODT
1RPLQDO2'7UHVLVWDQFH5TTB120LVGHILQHGE\05>@DVVKRZQLQ)LJXUH7KH5TTB120WHUPLQDWLRQYDOXHDSSOLHVWRWKHRXWSXWSLQVSUHYLRXVO\
PHQWLRQHG''56'5$0L02'VVXSSRUWPXOWLSOH5TTB120YDOXHVEDVHGRQ5=4QZKHUHQFDQEHRUDQG5=4LV:”5TTB120WHUPLQDWLRQLVDOORZHGDQ\WLPHDIWHUWKH6'5$0LVLQLWLDOL]HGFDOLEUDWHGDQGQRWSHUIRUPLQJ5($'DFFHVVHVRUZKHQLWLVQRWLQ6(/)5()5(6+PRGH
:5,7(DFFHVVXVHV5TTB120LGG\QDPLF2'75TTB:5LVGLVDEOHG,I5TTB120LVXVHGGXULQJ:5,7(VRQO\5=45=4DQG5=4DUHDOORZHGVHH
7DEOH2'7WLPLQJVDUHVXPPDUL]HGLQ7DEOHDVZHOODVOLVWHGLQ7DEOH
([DPSOHVRIQRPLQDO2'7WLPLQJDUHVKRZQLQFRQMXQFWLRQZLWKWKHV\QFKURQRXVPRGHRIRSHUDWLRQLQv6\QFKURQRXV2'70RGHw
TABLE 68: ODT PARAMETER
Begins at
Defined to
Definition for
All DDR3 bins
Units
ODTL ON
2'7V\QFKURQRXVWXUQRQGHOD\
2'7UHJLVWHUHG+,*+
RTTB21”t$21
&:/$/
t&.
ODTL OFF
2'7V\QFKURQRXVWXUQRIIGHOD\
2'7UHJLVWHUHG+,*+
RTTB21”t$2)
&:/$/
t&.
t$213'
2'7DV\QFKURQRXVRQGHOD\
2'7UHJLVWHUHG+,*+
RTT_ON
1-9
QV
t$2))3'
2'7DV\QFKURQRXVRQGHOD\
2'7UHJLVWHUHG+,*+
RTT_OFF
1-9
QV
2'7UHJLVWHUHG/2:
4t&.
t&.
t&.
Symbol
Description
2'7UHJLVWHUHG+,*+RU:5,7(
2'7+
2'7PLQLPXP+,*+WLPHDIWHU2'7DVVHUWLRQ
RU:5,7(%&
UHJLVWUDWLRQZLWK2'7+,*+
2'7+
2'7PLQLPXP+,*+WLPHDIWHU:5,7(%/
:5,7(UHJLVWUDWLRQZLWK2'7+,*+
2'7UHJLVWHUHG/2:
6t&.
t$21
2'7WXUQRQUHODWLYHWR2'7/RQFRPSOHWLRQ
&RPSOHWLRQRI2'7/RQ
RTT_ON
6HH7DEOH
SV
0.5t&.”t&.
t&.
t$2)
2'7WXUQRIIUHODWLYHWR2'7/RIIFRPSOHWLRQ
&RPSOHWLRQRI2'7/RII
RTT_OFF
DYNAMIC ODT
,QFHUWDLQDSSOLFDWLRQVWRIXUWKHUHQKDQFHVLJQDOLQWHJULW\RQWKHGDWDEXVLWLVGHVLUDEOHWKDWWKHWHUPLQDWLRQVWUHQJWKEHFKDQJHGZLWKRXWLVVXLQJDQ056
FRPPDQGHVVHQWLDOO\FKDQJLQJWKH2'7WHUPLQDWLRQUHVLVWDQFHRQWKHIO\:LWKG\QDPLF2'75TTB:5HQDEOHGWKH6'5$0VZLWFKHVIURPQRPLQDO2'7
5TTB120WRG\QDPLF2'7ZKHQEHJLQQLQJD:5,7(EXUVWDQGVXEVHTXHQWO\VZLWFKHVEDFNWRQRPLQDO2'7DWWKHFRPSOHWLRQRIWKH:5,7(EXUVWVHTXHQFH
7KLVUHTXLUHPHQWDQGWKHVXSSRUWLQJ'<1$0,&2'7IHDWXUHRIWKH''56'5$0PDNHVLWIHDVLEOHDQGLVGHVFULEHGLQIXUWKHUGHWDLOEHORZ
DYNAMIC ODT FUNCTIONAL DESCRIPTION:
7KHG\QDPLF2'7PRGHLVHQDEOHGLIHLWKHU05>@RUP5>@LVVHWWRvw'\QDPLF2'7LVQRWVXSSRUWHGGXULQJ'//GLVDEOHPRGHVR5TTB:5PXVWEH
GLVDEOHG7KHG\QDPLF2'7IXQFWLRQLVGHVFULEHGDVIROORZV
x7ZR5TTYDOXHVDUHDYDLODEOHy5TT_NOM and RTTB:5
x7KHYDOXHRI5TTB120LVSUHVHOHFWHGYLD05>@
x7KHYDOXHIRU5TTB:5LVSUHVHOHFWHGYLD05>@
x'XULQJ6'5$0RSHUDWLRQVZLWKRXW5($'RU:5,7(FRPPDQGVWKHWHUPLQDWLRQLVFRQWUROOHGDVIROORZV
x7HUPLQDWLRQ212))WLPLQJLVFRQWUROOHGYLDWKH2'7EDOODQG/$7(1&,(62'7ORQDQG2'7/RII
x1RPLQDOWHUPLQDWLRQVWUHQJWK5TTB120LVXVHG
x:KHQD:5,7(FRPPDQG:5:5$3:56:56:5$36:5$36LVUHJLVWHUHGDQGLIG\QDPLF2'7LVHQDEOHGWKH2'7WHUPLQDWLRQLVFRQWUROOHGDVIROORZV
x$ODWHQF\RI2'7/&1:DIWHUWKH:5,7(FRPPDQGWHUPLQDWLRQVWUHQJWK5TTB120VZLWFKHVWR5TTB:5
x$/DWHQF\RI2'7/&:1IRU%/IL[HGRU27)RU2'7/&:1IRU%&IL[HGRU27)DIWHUWKH:5,7(FRPPDQGWHUPLQDWLRQ
VWUHQJWK5TTB:5VZLWFKHVEDFNWR5TT_NOM
x212))WHUPLQDWLRQWLPLQJLVFRQWUROOHGYLDWKH2'7EDOODQGGHWHUPLQHGE\2'7/RQ2'7/RII2'7+DQG2'7+
x'XULQJWKHt$'&WUDQVLWLRQZLQGRZWKHYDOXHRI5TTLVXQGHILQHG
2'7LVFRQVWUDLQHGGXULQJ:5,7(VDQGZKHQG\QDPLF2'7LVHQDEOHGVHH7DEOH
LOGIC Devices Incorporated
www.logicdevices.com
142
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
TABLE 69: DYNAMIC ODT SPECIFIC PARAMETERS
Symbol
Description
Begins at
Defined to
Definition for
All DDR3 bins
Units
ODTL&1:
&KDQJHIURP5TT_NOM to RTTB:5
:5,7(UHJLVWUDWLRQ
RTTVZLWFKHGIURP5TT_NOM to RTTB:5
:/
t&.
ODTL&:1
&KDQJHIURP5TTB:5WR5TTB120%&
:5,7(UHJLVWUDWLRQ
RTTVZLWFKHGIURP5TTB:5WR5TT_NOM
4t&.2'7/2))
t&.
t&.
t&.
ODTL&:1
&KDQJHIURP5TTB:5WR5TTB120%/
:5,7(UHJLVWUDWLRQ
RTTVZLWFKHGIURP5TTB:5WR5TT_NOM
6t&.2'7/2))
t$'&
RTTFKDQJHVNHZ
ODTL&1:
RTTWUDQVFRPSOHWH
0.5t&.”t&.
TABLE 70: MODE REGISTERS FOR RTT_NOM
M9
MR1(RTT_NOM)
M6
0
0
0
0
0
0
M2
RTT_NOM (RZQ)
RTT_NOM(Ohms)
RTT_NOM Mode Restriction
0
2II
2II
QD
1
5=4
60
6(/)5()5(6+
1
0
5=4
120
1
1
5=4
40
1
0
0
5=4
20
1
0
1
5=4
30
1
1
0
5HVHUYHG
5HVHUYHG
QD
1
1
1
5HVHUYHG
5HVHUYHG
QD
6(/)5()5(6+:5,7(
TABLE 71: MODE REGISTERS FOR RTT_WR
MR1(RTT_NOM)
M10
M2
0
0
0
1
1
0
5=4
120
1
1
5HVHUYHG
5HVHUYHG
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
QD
RTT_NOM (RZQ)
RTT_NOM(Ohms)
Dynamic ODT OFF: WRITE does not affect RTT_NOM
60
5=4
TABLE 72: TIMING DIAGRAMS FOR DYNAMIC ODT
Figure
Title
'\QDPLF2'72'7DVVHUWHGEHIRUHDQGDIWHUWKH:5,7(%&
Figure 101
Figure 102
'\QDPLF2'7:LWKRXW:5,7(FRPPDQG
Figure 103
'\QDPLF2'72'7SLQDVVHUWHGWRJHWKHUZLWK:5,7(FRPPDQGIRU&.F\FOHV%/
Figure 104
'\QDPLF2'72'7SLQDVVHUWHGZLWK:5,7(FRPPDQGIRU&.F\FOHV%&
Figure 105
'\QDPLF2'72'7SLQDVVHUWHGZLWK:5,7(FRPPDQGIRU&.F\FOHV%&
LOGIC Devices Incorporated
www.logicdevices.com
143
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 101 - DYNAMIC ODT: ODT ASSERTED BEFORE AND AFTER THE WRITE, BC4
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
T11
T12
T13
T14
T15
T16
T17
NOP
NOP
NOP
NOP
WRS4
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
Add ress
Vali d
ODTH4
ODTL off
ODTH4
ODT
ODTLCWN 4
ODTL on
t ADC (MIN)
t AON (MIN)
RTT
RTT_NOM
t AON (MAX)
t ADC (MIN)
t AOF (MIN)
RTT_WR
RTT_NOM
t AOF (MAX)
t ADC (MAX)
t ADC (MAX)
ODTLCNW
DQS, DQS#
DQ
DI
n
WL
DI
n +1
DI
n +2
DI
n +3
Transitioning
Notes:
Don ’t Care
1. Via MRS or OTF. AL = 0, CWL = 5. RTT_NOM and RTT_WR are enabled.
2. ODTH4 applies to first registering ODT HIGH and then to the registration of the WRITE command. In this example,
ODTH4 is satisfied if ODT goes LOW at T8 (four clocks after the WRITE command).
FIGURE 102 - DYNAMIC ODT: WITHOUT WRITE COMMAND
CK#
CK
Command
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
T11
Vali d
Vali d
Vali d
Vali d
Vali d
Vali d
Vali d
Vali d
Vali d
Vali d
Vali d
Vali d
Add ress
ODTH4
ODTL on
ODTL off
ODT
t AON (MAX)
t AOF (MIN)
RTT_NOM
RTT
t AOF (MAX)
t AON (MIN)
DQS, DQS#
DQ
Transitionin g
Notes:
LOGIC Devices Incorporated
Don ’t Care
1. AL = 0, CWL = 5. RTT_NOM is enabled and R TT_WR is either enabled or disabled.
2. ODTH4 is defined from ODT registered HIGH to ODT registered LOW; in this example,
ODTH4 is satisfied. ODT registered LOW at T5 is also legal.
www.logicdevices.com
144
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 103 - DYNAMIC ODT: ODT PIN ASSERTED TOGETHER WITH WRITE COMMAND FOR 6 CLOCK CYCLES, BL8
T0
T1
T2
NOP
WRS8
NOP
T3
T4
T5
T6
T7
T8
T9
T10
T11
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
ODTLCNW
Vali d
Add ress
ODTH8
ODTLOFF
ODTLON
ODT
t ADC (MAX)
t AOF (MIN)
RTT_WR
RTT
t AON (MIN)
t AOF (MAX)
ODTLCWN 8
DQS, DQS#
WL
DI
b
DQ
DI
b+1
DI
b+2
DI
b+3
DI
b+4
DI
b+5
DI
b+7
DI
b+6
Transitioning
Notes:
Don ’t Care
1. Via MRS or OTF; AL = 0, CWL = 5. If RTT_NOM can be either enabled or disabled, ODT can be HIGH. RTT_WR is enabled.
2. In this example, ODTH8 = 6 is satisfied exactly.
FIGURE 104 - DYNAMIC ODT: ODT PIN ASSERTED WITH WRITE COMMAND FOR 6 CLOCK CYCLES, BC4
T0
T1
T2
NOP
WRS4
NOP
T3
T4
T5
T6
NOP
NOP
NOP
NOP
T7
T8
T9
T10
T11
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
ODTLCNW
Address
Vali d
ODTH4
ODTL off
ODT
ODTL on
t ADC (MAX)
RTT
t ADC (MIN)
RTT_WR
t AOF (MIN)
RTT_NOM
t AON (MIN)
t ADC (MAX)
t AOF (MAX)
ODTLCWN 4
DQS, DQS#
DI
n
DQ
DI
n+1
DI
n+2
DI
n+3
WL
Transitioning
Notes:
LOGIC Devices Incorporated
Don ’t Care
1. Via MRS or OTF. AL = 0, CWL = 5. RTT_NOM and RTT_WR are enabled.
2. ODTH4 is defined from ODT registered HIGH to ODT registered LOW, so in this example,
ODTH4 is satisfied. ODT registered LOW at T5 is also legal.
www.logicdevices.com
145
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 105 - DYNAMIC ODT: ODT PIN ASSERTED WITH WRITE COMMAND FOR 4 CLOCK CYCLES, BC4
T0
T1
T2
NOP
WRS4
NOP
T3
T4
T5
T6
T7
T8
T9
T10
T11
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
ODTLCNW
Add ress
Valid
ODTL off
ODTH4
ODT
t AOF (MIN)
t ADC (MAX)
ODTL on
RTT
R_TTWR
_WR
RTT
t AON (MIN)
t AOF (MAX)
ODTLCWN 4
DQS, DQS#
WL
DI
n
DQ
DI
n+1
DI
n+2
DI
n+3
Transitioning
Notes:
1. Via MRS or OTF. AL = 0, CWL = 5. RTT_NOM can be either enabled or disabled. If disabled,
ODT can remain HIGH. RTT_WR is enabled.
2. In this example ODTH4 = 4 is satisfied exactly.
SYNCHRONOUS ODT MODE
ODT LATENCY AND POSTED ODT
6\QFKURQRXV2'7LVVHOHFWHGZKHQHYHUWKH'//LVWXUQHGRQDQGORFNHG
ZKLOH 5TT_NOM or RTTB:5 LV HQDEOHG %DVHG RQ WKH 32:(5'2:1
GHILQLWLRQWKHVHPRGHVDUH
,QV\QFKURQRXV2'7PRGH5TTWXUQVRQ2'7/RQFORFNF\FOHVDIWHU2'7
LVVDPSOHG+,*+E\DULVLQJFORFNHGJHDQGWXUQVRII2'7/RIIFORFNF\FOHV
DIWHU2'7LVUHJLVWHUHG/2:E\DULVLQJFORFNHGJH7KHDFWXDORQRIIWLPHV
YDULHVE\t$21DQGt$2)DURXQGHDFKFORFNHGJHVHH7DEOH7KH2'7
/$7(1&<LVWLHGWRWKH:5,7(/$7(1&<:/E\2'7/RQ :/DQG
2'7/RII :/
x$Q\EDQN$&7,9(ZLWK&.(+,*+
x5()5(6+PRGHZLWK&.(+,*+
x'/(PRGHZLWK&.(+,*+
x$&7,9(32:(5'2:1PRGHUHJDUGOHVVRI
05>@
x35(&+$5*(32:(5'2:1PRGHLI'//LV
HQDEOHGGXULQJ35(&+$5*(32:(5'2:1E\
MR0[12]
LOGIC Devices Incorporated
Don ’t Care
www.logicdevices.com
6LQFH:5,7(/$7(1&<LVPDGHXSRI&$6:5,7(/$7(1&<&:/DQG
$'',7,9(/$7(1&<$/WKH$/YDOXHSURJUDPPHGLQWRWKHPRGHUHJLVWHU05>@DOVRDSSOLHVWRWKH2'7VLJQDO7KH6'5$0uVLQWHUQDO2'7
VLJQDOLVGHOD\HGDQXPEHURIFORFNF\FOHVGHILQHGE\WKH$/UHODWLYHWRWKH
H[WHUQDO2'7VLJQDO7KXV2'7/RQ &:/$/yDQG2'7/RII &:/
$/y
146
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
SYNCHRONOUS ODT TIMING PARAMETERS
6\QFKURQRXV2'7PRGHXVHVWKHIROORZLQJWLPLQJSDUDPHWHUV2'7/RQ2'7/RII2'7+2'7+ t$21DQG t$2)VHH7DEOHDQG)LJXUH7KH
PLQLPXP5TTWXUQRQWLPHt$21>0,[email protected]+,*+$DQG2'7UHVLVWDQFHEHJLQVWRWXUQRQ0D[LPXP5TTWXUQRQWLPH
t$21>0$;@LVWKHSRLQWDWZKLFK2'7UHVLVWDQFHLVIXOO\RQ%RWKDUHPHDVXUHGUHODWLYHWR2'7/RQ7KHPLQLPXP5TTWXUQRIIWLPHt$2)>[email protected]
SRLQWDWZKLFKWKHGHYLFHVWDUWVWRWXUQRII2'7UHVLVWDQFH0D[LPXP5TTWXUQRIIWLPHt$2)>0$;@LVWKHSRLQWDWZKLFK2'7KDVUHDFKHG+,*+=%RWKDUH
PHDVXUHGIURP2'7/RII
:KHQ2'7LVDVVHUWHGLWPXVWUHPDLQ+,*+XQWLO2'7+LVVDWLVILHG,ID:5,7(FRPPDQGLVUHJLVWHUHGE\WKH6'5$0ZLWK2'7+,*+WKHQ2'7PXVW
UHPDLQ+,*+XQWLO2'7+%&RU2'7+%/DIWHUWKH:5,7(FRPPDQGVHH)LJXUH2'7+DQG2'7+DUHPHDVXUHGIURP2'7UHJLVWHUHG+,*+
WR2'7UHJLVWHUHG/2:RUIURPWKHUHJLVWUDWLRQRID:5,7(FRPPDQGXQWLO2'7LVUHJLVWHUHG/2:
TABLE 73: SYNCHRONOUS ODT PARAMETERS
Symbol
Description
Begins at
Defined to
Definition for
All DDR3 bins
Units
ODTL ON
2'7V\QFKURQRXV785121GHOD\
2'7UHJLVWHUHG+,*+
RTTB21”t$21
&:/$/
t&.
ODTL OFF
2'7V\QFKURQRXV78512))GHOD\
2'7UHJLVWHUHG+,*+
RTTB2))”t$2)
&:/$/
t&.
2'7UHJLVWHUHG/2:
4tF.
t&.
2'7UHJLVWHUHG+,*+RU:5,7(
2'7+
2'70LQLPXP+,*+WLPHDIWHU2'7
DVVHUWLRQRU:5,7(%&
UHJLVWUDWLRQZLWK2'7+,*+
2'7+
2'70LQLPXP+,*+WLPHDIWHU
:5,7(UHJLVWUDWLRQZLWK2'7+,*+
2'7UHJLVWHUHG/2:
6tF.
t&.
t$21
2'7785121UHODWLYHWR2'7/RQ
&RPSOHWLRQRI2'7/RQ
RTT_ON
6HH7DEOH
SV
t$2)
2'778512))UHODWLYHWR2'7/RII
&RPSOHWLRQRI2'7/RII
RTT_OFF
0.5tF.”tF.
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FRPSOHWLRQ
FIGURE 106 - SYNCHRONOUS ODT
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
T11
T12
CK#
CK
CKE
AL = 3
CWL -
AL = 3
ODT
ODTH4 (MIN)
ODTL off = CWL + AL - 2
ODTL on = CWL + AL - 2
t AON (MIN)
RTT
RTT_NOM
t AON (MAX)
Notes:
LOGIC Devices Incorporated
1. AL = 3; CWL = 5; ODTL on = WL = 6.0; ODTL off = WL - 2 = 6. R TT_NOM is enabled.
www.logicdevices.com
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 107 - SYNCHRONOUS ODT (BC4)
T0
T1
T2
NOP
NOP
NOP
T3
T4
T5
T6
T7
NOP
NOP
NOP
WRS4
T8
T9
T10
NOP
NOP
NOP
T11
T12
T13
T14
T15
T16
T17
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
CKE
Command
NOP
NOP
ODTH4 (MIN)
ODTH4
ODTH4
ODT
ODTLoff = WL - 2
ODTL off = WL - 2
ODTL on = WL - 2
ODTL on = WL - 2
t AON (MIN)
RTT
t AON (MAX)
t AOF (MIN)
t AOF (MIN)
RTT_NOM
RTT_NOM
t AOF (MAX)
t AON (MAX)
t AON (MIN)
t AOF (MAX)
Transitioning
Notes:
Don ’t Care
1.
2.
3.
4.
WL = 7. RTT_NOM is enabled. R TT_WR is disabled.
ODT must be held HIGH for at least ODTH4 after assertion (T1).
ODT must be kept HIGH ODTH4 (BC4) or ODTH8 (BL8) after the WRITE command (T7).
ODTH is measured from ODT first registered HIGH to ODT first registered LOW or from the registration of the WRITE
command with ODT HIGH to ODT registered LOW.
5. Although ODTH4 is satisfied from ODT registered HIGH at T6, ODT must not go LOW before T11 as ODTH4 must also be
satisfied from the registration of the WRITE command at T7.
ODT OFF DURING READS
$VWKH''56'5$0FDQQRWWHUPLQDWHDQGGULYHDWWKHVDPHWLPH5TTPXVWEHGLVDEOHGDWOHDVWRQHKDOIFORFNF\FOHEHIRUHWKH5($'SUHDPEOHE\GULYLQJ
WKH2'7EDOO/2:5TTPD\QRWEHHQDEOHGXQWLOWKHHQGRIWKHSRVWDPEOHDVVKRZQLQ)LJXUH
FIGURE 108 - ODT DURING READS
T0
T1
T2
T3
T4
T5
T6
Command
READ
NOP
NOP
NOP
NOP
NOP
NOP
Add ress
Vali d
T7
T8
T9
T10
T11
T12
T13
T14
T15
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
T16
T17
NOP
NOP
CK#
CK
NOP
ODTL on = CWL + AL - 2
ODTL off = CWL + AL - 2
ODT
t AOF (MIN)
RTT
RTT_NOM
RTT_NOM
t AOF (MAX)
RL = AL + CL
t AON (MAX)
DQS, DQS#
DQ
DI
b
DI
b+1
DI
b+2
DI
b+3
DI
b+4
DI
b+5
DI
b+6
DI
b+7
Transitioning
Notes:
LOGIC Devices Incorporated
Don ’t Care
1. ODT must be disabled externally during READs by driving ODT LOW. For example, CL = 6; AL = CL - 1 = 5; RL = AL +
CL = 11; CWL = 5; ODTL on = CWL + AL - 2 = 8; ODTL off = CWL + AL - 2 = 8. RTT_NOM is enabled. R TT_WR is a “Don’t Care.”
www.logicdevices.com
148
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ASYNCHRONOUS ODT MODE
$V\QFKURQRXV2'7PRGHLVDYDLODEOHZKHQWKH6'5$0UXQVLQ'//21PRGHDQGZKHQHLWKHU5TT_NOM or RTTB:5LVHQDEOHGKRZHYHUWKH'//LVWHPSRUDULO\WXUQHGRIILQ35(&+$5*('32:(5'2:1VWDQGE\YLD05>@$GGLWLRQDOO\2'7RSHUDWHVDV\QFKURQRXVO\ZKHQWKH'//LVV\QFKURQL]LQJDIWHU
EHLQJ5(6(76HHv32:(5'2:102'(wIRUGHILQLWLRQDQGJXLGDQFHRYHU32:(5'2:1GHWDLOV
,QDV\QFKURQRXV2'7WLPLQJPRGHWKHLQWHUQDO2'7FRPPDQGLVQRWGHOD\HGE\$/UHODWLYHWRWKHH[WHUQDO2'7FRPPDQG,QDV\QFKURQRXV2'7PRGH2'7
FRQWUROV5TTE\DQDORJWLPH7KHWLPLQJSDUDPHWHUVt$213'DQGt$2)3'VHH7DEOHUHSODFH2'7/RQt$21DQG2'7/RIIt$2)UHVSHFWLYHO\ZKHQ2'7
RSHUDWHVDV\QFKURQRXVO\VHH)LJXUH
7KHPLQLPXP5TTWXUQRQWLPHt$213'>0,[email protected]+,*+=DQG2'7UHVLVWDQFHEHJLQVWRWXUQRQ0D[LPXP5TTWXUQRQWLPHt$213'>0$;@LVWKHSRLQWDWZKLFK2'7UHVLVWDQFHLVIXOO\RQt$213'0,1DQGt$213'0$;DUHPHDVXUHGIURP2'7EHLQJ
VDPSOHG+,*+
7KHPLQLPXP5TTWXUQRIIWLPHt$2)3'>0,[email protected]'7UHVLVWDQFH0D[LPXP5TTWXUQRIIWLPH
t$2)3'>0$;@LVWKHSRLQWDWZKLFK2'7KDVUHDFKHG+,*+=t$2)3'0,1DQGt$2)3'0$;DUHPHDVXUHGIURP2'7EHLQJVDPSOHG/2:
FIGURE 109 - ASYNCHRONOUS ODT TIMING WITH FAST ODT TRANSITION
T0
T1
T2
T3
T4
T5
T6
T7
T8
T10
T9
T11
T12
T13
T14
T15
T16
T17
CK#
CK
CKE
t IH
t IS
t IH
t IS
ODT
t AOFPD (MIN)
t AONPD (MIN)
RTT
RTT_NOM
t AONPD (MAX)
t AOFPD (MAX)
Transitioning
Notes:
Don ’t Care
1. AL is ignored.
TABLE 74: ASYNCHRONOUS ODT TIMING PARAMETERS FOR ALL SPEED BINS
Symbol
MIN
MAX
Units
t$21
3'
$V\QFKURQRXV5TT785121GHOD\32:(5'2:1ZLWK'//RII
2
8.5
QV
t$2)
3'
$V\QFKURQRXV5TT78512))GHOD\32:(5'2:1ZLWK'//RII
2
8.5
QV
LOGIC Devices Incorporated
Description
www.logicdevices.com
149
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
SYNCHRONOUS TO ASYNCHRONOUS ODT MODE TRANSITION (POWER-DOWN ENTRY)
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WUDQVLWLRQSHULRGRFFXUVLIWKH'//LVVHOHFWHGWREHRIIZKHQLQ35(&+$5*(32:(5'2:1PRGHE\WKHVHWWLQJRI05>@ 32:(5'2:1HQWU\
EHJLQVt$13'SULRUWR&.(ILUVWEHLQJUHJLVWHUHG/2:DQGLWHQGVZKHQ&/(LVILUVWUHJLVWHUHG/2:t$13'LVHTXDOWRWKHJUHDWHURI2'7/RIIt&.RU2'7/
RQt&.,ID5()5(6+FRPPDQGKDVEHHQLVVXHGDQGLWLVLQSURJUHVVZKHQ&.(JRHV/2:32:(5'2:1HQWU\ZLOOHQG t5)&DIWHUWKH5()5(6+
FRPPDQGUDWKHUWKDQZKHQ&.(LVILUVWUHJLVWHUHG/2:32:(5'2:1(175<ZLOOWKHQEHFRPHWKHJUHDWHURI t$13'DQG t5)&y5()5(6+FRPPDQG
WR&.(UHJLVWHUHG/2:
2'7DVVHUWLRQGXULQJ32:(5'2:1(175<UHVXOWVLQDQ5TTFKDQJHDVHDUO\DVWKHOHVVHURIt$213'0,1DQG2'7/RQ[t&.t$210,1RUDVODWH
DVWKHJUHDWHURIt$213'0$;DQG2'7/RQ[t&.t$210$;2'7GHDVVHUWLRQGXULQJ32:(5'2:1(175<PD\UHVXOWLQDQ5TTFKDQJHDVHDUO\
DVWKHOHVVHURI t$2)3'0,1DQG2'7/RII[ t&. t$2)0,1RUDVODWHDVWKHJUHDWHURI t$2)3'0$;DQG2'7/RII[ t&. t$2)0$;7DEOH
VXPPDUL]HVWKHVHSDUDPHWHUV
,IWKH$/KDVDODUJHYDOXHWKHXQFHUWDLQW\RIWKHVWDWHRI5TTEHFRPHVTXLWHODUJH7KLVLVEHFDXVH2'7/RQDQG2'7/RIIDUHGHULYHGIURPWKH:/DQG:/
LVHTXDOWR&:/$/)LJXUHVKRZVWKUHHGLIIHUHQWFDVHV
x2'7B$6\QFKURQRXVEHKDYLRUEHIRUHt$13'
x2'7B%2'7VWDWHFKDQJHVGXULQJWKHWUDQVLWLRQSHULRGZLWKt$213'0,1OHVVWKDQ2'7/RQ[t&.t$210,1DQGt$213'0$;
JUHDWHUWKDQ2'7/RQ[t&.t$210$;
x2'7B&2'7VWDWHFKDQJHVDIWHUWKHWUDQVLWLRQSHULRGZLWKDV\QFKURQRXVEHKDYLRU
TABLE 75: ODT PARAMETERS FOR POWER-DOWN (DLL OFF) ENTRY AND EXIT TRANSITION PERIOD
Description
MIN
t$1
32:(5'2:1HQWU\WUDQVLWLRQ32:(5'2:1H[LW
ODT to RTT785121GHOD\2'7/RQ :/
ODT to RTT 78512))GHOD\2'7/RII :/
t$1
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t
3' ;3'//
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/HVVHURIt$13'0,1>[email protected]
2'/RQ[t&.t$210,1
2'/RQ[t&.t$210,1
/HVVHURIt$2)3'0,1>[email protected]
/HVVHURIt$2)3'0,1>[email protected]
2'/RII[t&.t$2)0,1
2'/RII[t&.t$2)0,1
:/*UHDWHURI2'7/RIIRU2'7/RQ
3'
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MAX
*UHDWHURIt$13' or t5)&5()5(6+WR&.(/2:
32:(5'2:1HQWU\WUDQVLWLRQSHULRG32:(5'2:1HQWU\
150
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 110 - SYNCHRONOUS TO ASYNCHRONOUS TRANSITION DURING PRECHARGE POWER-DOWN (DLL OFF) ENTRY
T0
T1
T2
T3
T4
NOP
REF
NOP
NOP
NOP
T5
T6
T7
T8
T9
T10
T11
T12
T13
Ta0
Ta1
Ta2
Ta3
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
CKE
Command
t RFC (MIN)
t ANPD
PDE transition period
ODT A
synchronous
DRAM RTT A
synchronous
t AOF (MIN)
RTT_NOM
ODTL off
ODTL off + t AOFPD (MIN)
t AOF (MAX)
t AOFPD (MAX)
ODT B
asynchronous
or synchronous
DRAM RTT B
asynchronous
or synchronous
t AOFPD (MIN)
RTT_NOM
ODTL off + t AOFPD (MAX)
ODT C
asynchronous
t AOFPD (MIN)
DRAM RTT C
asynchronous
RTT_NOM
t AOFPD (MAX)
Indicates a Break In
Time Scale
Notes:
Transitioning
Don ’t Care
1. AL = 0; CWL = 5; ODTL off = WL - 2 = 3.
ASYNCHRONOUS TO SYNCHRONOUS ODT MODE TRANSITION (POWER-DOWN EXIT)
7KH6'5$0uV2'7PD\H[KLELWHLWKHUDV\QFKURQRXVRUV\QFKURQRXVEHKDYLRUGXULQJ32:(5'2:1(;,73';7KLVWUDQVLWLRQSHULRGRFFXUVLIWKH'//LV
VHOHFWHGWREHRIIZKHQLQ35(&+$5*(32:(5'2:1PRGHE\VHWWLQJ05>@WRvw32:(5'2:1H[LWEHJLQVt$13'SULRUWR&.(ILUVWEHLQJUHJLVWHUHG+,*+DQGLWHQGVt;3'//DIWHU&.(LVILUVWUHJLVWHUHG+,*+t$13'LVHTXDOWRWKHJUHDWHURI2'7/RIIt&.RU2'7/RQt&.7KHWUDQVLWLRQSHULRG
LVt$13'SOXVt;3'//
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WKHJUHDWHURIt$213'0$;DQG2'7/RQ[t&.t$210$;2'7GHDVVHUWLRQGXULQJ32:(5'2:1(;,7PD\UHVXOWLQDQ5TTFKDQJHDVHDUO\DVWKH
OHVVHURIt$2)3'0,1DQG2)7/RII[t&.t$2)0,1RUDVODWHDVWKHJUHDWHURIt$2)3'0$;DQG2'7/RII[t&.t$2)0$;7DEOHVXPPDUL]HV
WKHVHSDUDPHWHUV
,IWKH$/KDVDODUJHYDOXHWKHXQFHUWDLQW\RIWKH5TTVWDWHEHFRPHVTXLWHODUJH7KLVLVEHFDXVH2'7/RQDQG2'7/RIIDUHGHULYHGIURPWKH:/DQGWKH:/
LVHTXDOWR&:/$/)LJXUHVKRZVWKUHHGLIIHUHQWFDVHV
x2'7&$V\QFKURQRXVEHKDYLRUEHIRUHt$13'
x2'7%2'7VWDWHFKDQJHVGXULQJWKHWUDQVLWLRQSHULRGZLWKt$2)3'0,1OHVVWKDQ2'7/RII[t&.t$2)0,1DQG2'7/RII[t&.
t$2)0$;JUHDWHUWKDQt$2)3'0$;
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LOGIC Devices Incorporated
www.logicdevices.com
151
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
LOGIC Devices Incorporated
www.logicdevices.com
152
DRAM RTT C
synchronous
ODT C
synchronous
ODT B
asynchronous
or synchronous
RTT B
asynchronous
or synchronous
DRAM RTT A
asynchronous
ODT A
asynchronous
COMMAND
CKE
CK#
CK
T0
RTT_NOM
T1
t ANPD
RTT_NOM
t AOFPD (MAX)
t AOFPD (MIN)
T2
Ta0
NOP
Ta1
Notes:
NOP
Ta2
NOP
Ta4
NOP
Ta5
t XPDLL
NOP
Ta 6
NOP
T b0
NOP
Tb1
NOP
Tb2
NOP
Tc0
NOP
Tc1
Indicates A Break in
Time Scale
1. CL = 6; AL = CL - 1; CWL = 5; ODTL off = WL - 2 = 8.
RTT_NOM
ODTL off + t AOF (MAX)
t AOFPD (MAX)
ODTL off + t AOF (MIN)
PDX transition period
t AOFPD (MIN)
NOP
Ta3
Transitioning
ODTL off
NOP
Tc2
NOP
Td1
Don ’t Care
t AOF (MIN)
t AOF (MAX)
NOP
Td0
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
FIGURE 111 - ASYNCHRONOUS TO SYNCHRONOUS TRANSITION DURING PRECHARGE POWER-DOWN (DLL OFF) EXIT
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
ASYNCHRONOUS TO SYNCHRONOUS ODT MODE TRANSITION (SHORT CKE PULSE)
,IWKHWLPHLQWKH35(&+$5*(32:(5'2:1RU,'/(VWDWHVLVYHU\VKRUWVKRUW&.(/2:SXOHVWKH32:(5'2:1(175<DQG32:(5'2:1(;,7
WUDQVLWLRQSHULRGVZLOORYHUODS:KHQRYHUODSRFFXUVWKHUHVSRQVHRIWKH6'5$0uV5TTWRDFKDQJHLQWKH2'7VWDWHPD\EHV\QFKURQRXVRUDV\QFKURQRXV
IURPWKHVWDUWRIWKH32:(5'2:1(175<WUDQVLWLRQSHULRGWRWKHHQGRIWKH32:(5'2:1(;,7WUDQVLWLRQSHULRGHYHQLIWKH(175<SHULRGHQGVODWHU
WKDQWKH(;,7SHULRGVHH)LJXUH
,IWKHWLPHLQWKHLGOHVWDWHLVYHU\VKRUWVKRUW&.(+,*+SXOVHWKH32:(5'2:1(;,7DQG32:(5'2:1(175<WUDQVLWLRQSHULRGVRYHUODS:KHQWKLV
RYHUODSRFFXUVWKHUHVSRQVHRIWKH6'5$0uV5TTWRDFKDQJHLQWKH2'7VWDWHPD\EHV\QFKURQRXVRUDV\QFKURQRXVIURPWKHVWDUWRIWKH32:(5'2:1
(;,7WUDQVLWLRQSHULRGWRWKHHQGRIWKH32:(5'2:1(175<WUDQVLWLRQSHULRGVHH)LJXUH
FIGURE 112 - TRANSITION PERIOD FOR SHORT CKE LOW CYCLES WITH ENTRY AND EXIT PERIOD OVERLAPPING
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
Ta0
Ta1
Ta2
Ta3
Ta4
REF
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
CKE
PDE transition period
t ANPD
t RFC(MIN)
PDX transition perio d
t XPDLL
t ANPD
Short CKE LOW transition period (RTT chan ge asynchronous or syn chronous)
Indicates a Break in
Time Scale
Notes:
Transitionin g
Don ’t Care
1. AL = 0, WL = 5, t ANPD = 4.
FIGURE 113 - TRANSITION PERIOD FOR SHORT CKE HIGH CYCLES WITH ENTRY AND EXIT PERIOD OVERLAPPING
T0
T1
T2
T3
T4
T5
T6
NOP
NOP
N
NOP
OP
NOP
NOP
NOP
NOP
T7
T8
T9
NOP
NOP
NOP
Ta0
Ta1
Ta2
Ta3
Ta4
NOP
NOP
NOP
NOP
NOP
CK#
CK
Command
CKE
t ANPD
t XPDLL
t ANPD
Short CKE HIGH transition period (R TT chan ge asynchronous or synchonous)
Indicates A Break in
Time Scale
Notes:
LOGIC Devices Incorporated
www.logicdevices.com
Transitionin g
Don ’t Care
1. AL = 0, WL = 5, t ANPD = 4.
153
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
L9D364M64SBG2
4.0 Gb, DDR3, 64 M x 64 Integrated Module (IMOD)
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154
High Performance, Integrated Memory Module Product
May 3, 2012 LDS-L9D364M64SBG2-G
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www.logicdevices.com
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REVISION HISTORY
Revision
Engineer
Issue Date
Description Of Change
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